Magnetic Shape Memory Micropump for Submicroliter Intracranial Drug Delivery in Rats

Barker, Samuel; Rhoads, Eric; Lindquist, Paul; Vreugdenhil, Martin; Müllner, Peter

doi:10.1115/1.4034576

Cited by 23 publications

(18 citation statements)

References 19 publications

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“…1 Exhibiting magnetic field induced strains of up to 12%, 2 Ni-Mn-Ga is a promising material for use as the active element in actuating devices. [3][4][5][6][7][8] Ni-Mn-Ga's shape change is accommodated by growth, through twin boundary motion, of martensite variants preferentially aligned with the applied magnetic field. The twinning stress necessary to initiate magnetic field induced twin boundary movement in Ni-Mn-Ga has been shown to be as low as 0.05 MPa.…”

Section: Introductionmentioning

confidence: 99%

Localized deformation in Ni-Mn-Ga single crystals

Davis

Efaw

Patten

et al. 2018

Journal of Applied Physics

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The magnetomechanical behavior of ferromagnetic shape memory alloys such as Ni-Mn-Ga, and hence the relationship between structure and nanoscale magnetomechanical properties, is of interest for their potential applications in actuators. Furthermore, due to its crystal structure, the behavior of Ni-Mn-Ga is anisotropic. Accordingly, nanoindentation and magnetic force microscopy were used to probe the nanoscale mechanical and magnetic properties of electropolished single crystalline 10M martensitic Ni-Mn-Ga as a function of the crystallographic c-axis (easy magnetization) direction relative to the indentation surface (i.e., c-axis in-plane versus out-of-plane). Load-displacement curves from 5-10 mN indentations on in-plane regions exhibited pop-in during loading, whereas this phenomenon was absent in out-of-plane regions. Additionally, the reduced elastic modulus measured for the c-axis out-of-plane orientation was $50% greater than for in-plane. Although heating above the transition temperature to the austenitic phase followed by cooling to the room temperature martensitic phase led to partial recovery of the indentation deformation, the magnitude and direction of recovery depended on the original relative orientation of the crystallographic c-axis: positive recovery for the in-plane orientation versus negative recovery (i.e., increased indent depth) for out-of-plane. Moreover, the c-axis orientation for out-of-plane regions switched to in-plane upon thermal cycling, whereas the number of twins in the in-plane regions increased. We hypothesize that dislocation plasticity contributes to the permanent deformation, while pseudoelastic twinning causes pop-in during loading and large recovery during unloading in the c-axis in-plane case. Minimization of indent strain energy accounts for the observed changes in twin orientation and number following thermal cycling.

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Section: Introductionmentioning

confidence: 99%

Localized deformation in Ni-Mn-Ga single crystals

Davis

Efaw

Patten

et al. 2018

Journal of Applied Physics

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“…upon application of a radio-controlled electromagnetic field) [45,162,163]. The working principle of such devices potentially offers not only quite high precision drug dosing but also increased safety as the system only responds to an external suitably tuned nonmechanical stimulus [164]. To enhance the system flexibility, additional release controlling mechanisms to be coupled with the shape memory effect were also tested, for instance relying on the application of functional coatings and on the variation of the viscosity of the drug containing formulation when in contact with aqueous fluids at body temperature [163].…”

Section: Shape Recovery For Triggering Drug Releasementioning

confidence: 99%

“…capsules, chips) hosting a more or less complex pumping system and drug-loaded reservoirs, the latter connected to the external environment through holes and valves (e.g. two-way, passive-check or thermoactive valves) [164,165]. In some cases, these DDSs were envisaged so that the removal of the stimulus allowed the interruption of the release.…”

Section: Shape Recovery For Triggering Drug Releasementioning

confidence: 99%

“…In some cases, these DDSs were envisaged so that the removal of the stimulus allowed the interruption of the release. As a consequence, fine tuning of the drug delivered (even up to picometric amounts) and on demand pulsatile-release performance could be achieved, leading to good potential for customization [163,164]. Endoscopic capsules were also proposed, entailing a tracking mechanism to monitor the position of the device in the human body after oral administration and ensure drug release at the right site [165].…”

Section: Shape Recovery For Triggering Drug Releasementioning

confidence: 99%

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Shape memory materials and 4D printing in pharmaceutics

Melocchi

Uboldi

Cerea

et al. 2021

Advanced Drug Delivery Reviews

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“…17,18 However, the application of MSMA in hydraulic systems is mainly focused on the feasibility analysis of structure design, the applicability of different mathematical models and control strategies for different types of valves to improve the numerical simulation. [19][20][21] Although valve is designed, analysis on the flow field and dynamic characteristics is carded out by simulation, fabrication of the MSMA valve prototype and the flow characteristics still need further demonstration. It is well known that hydraulic system is intrinsically weak in energy efficiency.…”

Section: Introductionmentioning

confidence: 99%

Design and performance analysis of hydraulic switching valve driven by magnetic shape memory alloy

Shi

Liu

Wang

et al. 2021

Advances in Mechanical Engineering

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In this paper, the hydraulic switching valve is designed and its dynamic performance is investigated through proposing a fast response actuator with magnetic shape memory alloy (MSMA) to drive the valve. MSMA actuator with spring return is designed and a double-layered coil is constructed to achieve compactness of electromagnetic case. The dynamic characteristics of the MSMA actuator are analyzed and the step response characteristics is tested. Hydraulic switching valve with MSMA actuator is designed with poppet type. Pressure and velocity field in the flow channel under different valve opening and different inlet and outlet pressure differences are analyzed in COMSOL Multiphysics software. The dynamics of the valve poppet during opening and closing process is modeled mathematically, and simulation analysis are conducted in AMESim software to analyze the response of valve under step and square wave signals. The step response of output flow rate and pressure-flow characteristic under different operating conditions are obtained through experiment. The results show that the MSMA based valve can achieve fast response with opening time of 5 ms at the pressure difference of 1 MPa, providing a theoretical support for the development of hydraulic switching valve with high performance actuator driven by MSMA.

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Magnetic Shape Memory Micropump for Submicroliter Intracranial Drug Delivery in Rats

Cited by 23 publications

References 19 publications

Localized deformation in Ni-Mn-Ga single crystals

Localized deformation in Ni-Mn-Ga single crystals

Shape memory materials and 4D printing in pharmaceutics

Design and performance analysis of hydraulic switching valve driven by magnetic shape memory alloy

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