Crisley Dossin Zanrosso scite author profile

Crisley Dossin Zanrosso

5Publications

21Citation Statements Received

49Citation Statements Given

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Affiliations

Universidade Luterana do Brasil

Publications

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Otoproteção em cobaias expostas a agrotóxico e ginkgo biloba

Finkler¹,

Silveira²,

Munaro³

et al. 2012

Braz. j. otorhinolaryngol.

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Pesticides are widely used in agriculture, despite the risk of hearing loss related to the exposure to their chemical components. This study looks into protective drugs to counteract the ototoxicity of pesticides. Objective This study aims to analyze the effect ginkgo biloba extract may have in protecting against possible cochlear damage caused by organophosphate pesticides (methamidophos). Anatomic changes are assessed through surface and electron microscopy. Materials and Methods This is a prospective experimental study. Twenty-one guinea pigs were given saline solution, pesticide, and ginkgo biloba alone or combined for seven consecutive days. Then their cochleas were removed and examined in a scanning electron microscope. Results Pesticide-exposed guinea pigs had morphological alterations in their cochleas and injuries in the three turns analyzed through electron microscopy. Injury intensity varied according to the dosages of the agents given to the test subjects. Guinea pigs treated with pesticide and ginkgo biloba maintained the architecture of their outer hair cells in all cochlear turns. Conclusion The antioxidant properties found in the ginkgo biloba extract protected guinea pigs from pesticide ototoxicity.

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Catheter-related infection due to Papiliotrema laurentii in an oncologic patient: Case report and systematic review

Londero¹,

Zanrosso²,

Corso

et al. 2019

The Brazilian Journal of Infectious Diseases

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Optimization of a Cemented Femoral Prosthesis Considering Bone Remodeling

Corso

Spinelli

Schnaid

et al. 2015

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The study presents a numerical methodology for minimizing the bone loss in human femur submitted to total hip replacement (THR) procedure with focus on cemented femoral stem. Three-dimensional computational models were used to describe the femoral bone behavior. An optimization procedure using the genetic algorithm (GA) method was applied in order to minimize the bone loss, considering the geometry and the material of the prosthesis as well as the design of the stem. Internal and external bone remodeling were analyzed numerically. The numerical method proposed here showed that the bone mass loss could be reduced by 24%, changing the design parameters.

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Reliability-Based Design Optimization of a Cemented Prosthesis in a Femur Undergoing Bone Remodeling

Corso

Gomes

Spinelli

et al. 2019

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This study proposes a numerical methodology to minimize the bone mass loss in a femur with a total hip arthroplasty procedure, considering uncertainties in the material parameters and using a reliability-based design optimization (RBDO) procedure. A genetic algorithm (GA) is applied for optimization, and a three-dimensional finite element (FE) model associated with the bone remodeling procedure is proposed and described to account for the internal and external femoral bone behavior. An example of a femoral prosthesis design is presented as a basis for discussion of the proposed methodologies, and the corresponding reliability level is evaluated. Constraints on the strength of all materials and target reliability levels are inputs to the optimization model. The main prosthesis dimensions and Young modulus are the design variables. The proposed methodology is compared with a well-known deterministic optimization (DO) procedure and the results show that it is important to consider the uncertainties in this kind of problem since in this case, the a posteriori reliability may be low.

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Volume 78 edição 3: mai/jun 2012

Finkler¹,

Silveira²,

Munaro³

et al. 2012

Braz. j. otorhinolaryngol.

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