Finn Schulz scite author profile

Medicine is a rapidly-evolving discipline, with progress picking up pace with each passing decade. This constant evolution results in the introduction of new tools and methods, which in turn occasionally leads to paradigm shifts across the affected medical fields. The following review attempts to showcase how 3D printing has begun to reshape and improve processes across various medical specialties and where it has the potential to make a significant impact. The current state-of-the-art, as well as real-life clinical applications of 3D printing, are reflected in the perspectives of specialists practicing in the selected disciplines, with a focus on pre-procedural planning, simulation (rehearsal) of non-routine procedures, and on medical education and training. A review of the latest multidisciplinary literature on the subject offers a general summary of the advances enabled by 3D printing. Numerous advantages and applications were found, such as gaining better insight into patient-specific anatomy, better pre-operative planning, mock simulated surgeries, simulation-based training and education, development of surgical guides and other tools, patient-specific implants, bioprinted organs or structures, and counseling of patients. It was evident that pre-procedural planning and rehearsing of unusual or difficult procedures and training of medical professionals in these procedures are extremely useful and transformative.

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The plastic phase of hexachloroethane, C₂Cl₆: a neutron powder and single-crystal investigation

Gerlach¹,

Hohlwein²,

Prandl³

et al. 1981

Acta Cryst Sect A

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Bragg intensity data extracted from energy-integrated neutron measurements were treated by a conventional split-atom model, with a series expansion in cubic harmonic functions, and by a Gaussian approximation for the molecular librations. The trigonal molecular axes are found to be smeared out close to cubic [111] axes with the C1 atoms near the [100] axes. With the three models mentioned consistent data are obtained for the root-mean-square translational amplitude: 0.4A, and the librational amplitude: 19.6°; both at 423 K. Data and results for three different temperatures are given.

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Alkoxy-bromo-azulenes displaying ambient temperature smectic E-phases

et al. 2020

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Self‐Assembly of Aminocyclopropenium Salts: En Route to Deltic Ionic Liquid Crystals

et al. 2020

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Aminocyclopropenium ions have raised much attention as organocatalysts and redox active polymers. However, the self‐assembly of amphiphilic aminocyclopropenium ions remains challenging. The first deltic ionic liquid crystals based on aminocyclopropenium ions have been developed. Differential scanning calorimetry, polarizing optical microscopy and X‐ray diffraction provided insight into the unique self‐assembly and nanosegregation of these liquid crystals. While the combination of small headgroups with linear p‐alkoxyphenyl units led to bilayer‐type smectic mesophases, wedge‐shaped units resulted in columnar mesophases. Upon increasing the size and polyphilicity of the aminocyclopropenium headgroup, a lamellar phase was formed.

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First azulene liquid crystal with de Vries behavior and a SmA re-entrant phase

et al. 2023

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Finn Schulz

The Role of 3D Printing in Planning Complex Medical Procedures and Training of Medical Professionals—Cross-Sectional Multispecialty Review

The plastic phase of hexachloroethane, C₂Cl₆: a neutron powder and single-crystal investigation

Alkoxy-bromo-azulenes displaying ambient temperature smectic E-phases

Self‐Assembly of Aminocyclopropenium Salts: En Route to Deltic Ionic Liquid Crystals

First azulene liquid crystal with de Vries behavior and a SmA re-entrant phase

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Finn Schulz

The Role of 3D Printing in Planning Complex Medical Procedures and Training of Medical Professionals—Cross-Sectional Multispecialty Review

The plastic phase of hexachloroethane, C2Cl6: a neutron powder and single-crystal investigation

Alkoxy-bromo-azulenes displaying ambient temperature smectic E-phases

Self‐Assembly of Aminocyclopropenium Salts: En Route to Deltic Ionic Liquid Crystals

First azulene liquid crystal with de Vries behavior and a SmA re-entrant phase

Contact Info

Product

Resources

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The plastic phase of hexachloroethane, C₂Cl₆: a neutron powder and single-crystal investigation