Osama Habbal scite author profile

Osama Habbal

3Publications

0Citation Statements Received

23Citation Statements Given

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University of Michigan–Dearborn, American University of Sharjah

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3D Printing of Flexible, Scaled Neuron Models

Habbal

Farhat

Khalil

et al. 2023

Preprint

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Microscopy-based 3D neuronal reconstructions are freely available online, including in the NeuroMorpho.Org file repository. Each neuron’s dendritic structure is intricate and diverse, making it challenging to produce accurate physical 3D models for instruction or visualization. This work examines several methods for producing 3D models of neuronal reconstructions and compares their cost and accessibility. In response to high cost of direct 3D printing methods, we develop a new casting method which uses 3D-printed, single-use dissolvable molds and achieves lower cost for producing 3D neuron models. The casting method uses a consumer-grade desktop fused filament fabrication 3d printer, water-soluble polyvinyl alcohol filament, and a two-part casting material such as polyurethane resin or silicone rubber. Physical models of a diverse set of neuron morphologies including purkinje, pyramidal, medium spiny, and retinal ganglion cells were produced using the casting method with good fidelity to the neuronal reconstruction file and sufficient detail and strength for hands-on use in neuroscience education and research. The average cost of producing the four neuron models using the proposed casting method was reduced by 58% relative to the cost of using the least expensive 3D printing method by a service provider. Production time for one neuronal model using the proposed method was found to be in the range of 1-3 days while service-provided neurons required a minimum of a week from order placement to delivery.

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Continuously Variable Orifice Extrusion for Build Time Reduction in Fused Element Fabrication Additive Manufacturing

Habbal¹

2021

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A mechanized device for mounting histological tissue sections

Habbal

Farhat

Khalil

2019

Journal of Neuroscience Methods

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Osama Habbal

3D Printing of Flexible, Scaled Neuron Models

Continuously Variable Orifice Extrusion for Build Time Reduction in Fused Element Fabrication Additive Manufacturing

A mechanized device for mounting histological tissue sections

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