Investigation into the surface modification of Ti-6Al-4V to facilitate antimicrobial ionic silver integration for use in implantable orthopaedic devices

Vazirgiantzikis, Iosif

12 March 2021

Malignant bone tumours often require a patient to make the choice between limb salvage surgery and complete amputation. The Ti-6Al-4V alloy is the material of choice for implantable orthopaedic devices as it provides a favourable combination of biocompatibility, corrosion resistance and mechanical properties. The only drawback of titanium is that, owing to its bio-inertness, living tissue struggles to attach, creating an opportunity for bacterial adhesion. The “race for the surface” is the term given for the competition between living tissue and bacteria to colonise the implant surface. If bacterial adhesion occurs at a higher rate than tissue adhesion, the chance of infection rises significantly. It has been shown that there is an opportunity to give tissue adhesion the edge by slowing down the initial colonisation of the implant surface by free-swimming bacteria. Silver has a relatively low toxicity level of 28 mg/kg in the body. Current research has focussed mainly on reducing bio-inertness and improving the antimicrobial properties of titanium via the incorporation of silver. In general, the studies conducted on antibacterial surfaces are limited to testing the final sample directly in contact with bacteria, with no attempt to measure silver release rate profiles. The research in this dissertation aimed to investigate methodologies for the incorporation of silver into a modified surface of Ti-6Al-4V in order to facilitate an antimicrobial effect for use in orthopaedic implants. The methodologies investigated were: anodic oxidation of Ti-6Al-4V, followed by silver ion exchange; Ag-doped TiO2 fused to the surface of Ti-6Al-4V via anodic oxidation; and Ag ion implantation into anodically oxidised and polished Ti-6Al-4V. The generated surfaces and sub-surfaces were characterised microstructurally via SEM, FIB, TEM and AFM and chemically by RBS, XRD, AAS and EDS. Ag+ release rate investigations were conducted with the use of ICP-MS. This study was limited to the use of two anodising electrolytes (i.e. 0.5M H2SO4 and 2.1M H3PO4) and altering the AgNO3 concentration (0.05 - 5.0M) and Ag implantation dosage (0.4 - 1.2x1017 ions/cm2 ), where applicable to the method. Results from the Ag ion exchanged samples showed that, microstructurally, the surface produced via anodising in 0.5M H2SO4 and 2.1M H3PO4 were different in terms of pore morphology, Ra, pore homogeneity across the surface and crystal structure. Sub-surface analysis via FIB/TEM found that the ca. 200nm thick TiO2 samples all contained silver nanoparticles (AgNPs). Samples anodised in 0.5M H2SO4 produced an anatase crystal structure, whilst those anodised in 2.1M H3PO4 produced rutile crystal structures. Silver uptake by samples anodised in 0.5M H2SO4 showed decreases in Ag absorption at high (5.0M) AgNO3 ion exchange concentrations, relative to low (0.05M) concentrations. The opposite effect was observed for samples anodised in 2.1M H3PO4. Ag+ release curves corroborated the absorption data by displaying the same trends in terms of Ag+ release post ion exchange. It was concluded that it was a combination of diffusion bottlenecking and higher reactivity of the anatase phase formed during anodising in 0.5M H2SO4 with Ag+ versus the rutile phase that led to these trends. Synthesis of TiO2 powders showed that increasing the AgNO3 concentration (0.05-5M) resulted in AgTiO2 powders with increasing Ag content. Ag-TiO2 powder was successfully fused to the surfaces via anodic oxidation in 0.5M H2SO4 and 2.1M H3PO4 at 100V. Ag-TiO2 powder fused preferentially in areas where downward pressure was present. Microstructurally, the sub-surfaces produced an anodic oxide approximately 200nm thick, to which a significantly thicker, AgNP-containing, TiO2 was attached. XRD data indicated additional Brookite (020) peaks, owing to the presence of the attached Ag-TiO2 powder on the surfaces. Ag-TiO2 powders attached via 0.5M H2SO4 showed a higher overall Ag+ release at all investigated powder concentrations (0.48 - 76.93 wt% Ag) versus those attached via 2.1M H3PO4. This was concluded to be due to the anatase phase produced by 0.5M H2SO4 having greater oxidative power, thus accelerating oxidative dissolution of the AgNPs. RBS data corroborated these trends. Relative to their Ag ion exchange counterparts, the Ag-TiO2 samples had a lower Ag+ release at 0.05M and 0.5M AgNO3 concentrations. However, at 5.0M AgNO3 the Ag-TiO2 samples had a higher Ag+ release. This was the trend irrespective of the anodising electrolyte. Both the anatase and rutile TiO2s showed a reduction in Ra post Ag ion implantation and the polished Ti6Al4V samples showed an increase in Ra. This was due to preferential erosion of areas with high free surface energy. In the case of both TiO2s these were “high points” in the oxide and for polished Ti6Al4V these were the grain boundaries. Both TiO2s were amorphised during ion implantation. All ion implanted TiO2 showed the presence of AgNPs within the first 50nm of the surface. These AgNPs increased in size as the implantation dosage was increased. Polished Ti6Al4V showed no AgNP formation but EDS mapping confirmed that the silver was also located 50nm within the surface. TiO2 Ag+ release was similar for both implantation dosages because the surfaces had been supersaturated at the low dose, thus an increase in implantation dose had no significant effect on further silver uptake. The release rates were also similar between the oxides because of amorphisation. Polished Ti6Al4V showed an increase in Ag uptake and Ag+ release when the implantation dose was increased. RBS results corroborated the observed Ag+ release results. In comparison, both the ion exchanged samples and the Ag-TiO2 fused samples showed performances in similar ranges of Ag+ release. The Ag-TiO2 samples showed a greater degree of tailorability of the Ag+ release, whereas the ion exchanged samples showed a lesser sensitivity to an increase in AgNO3 concentration. Ag ion implanted samples showed an order of magnitude lower Ag+ release relative to the other studied methods. In comparison to literature, all ion exchanged and Ag-TiO2 samples had the potential to have a 100% antimicrobial effect (AE). Ion implanted oxides had a 55-100% potential, while the polished Ti6Al4V had a 55% AE at low dose and a 100% AE at high dose. In order to achieve maximum silver ion release and the associated antimicrobial effect, the technique of Ag-TiO2 fused to the surface using the 2.1M H3PO4 and 0.5M H2SO4 electrolytes yielded the best results, with a silver ion release of 550 and 600 ppb respectively over two weeks. This technique also satisfied the research aim, in that the methodology offered a combination of tailorability of silver release and commercial scalability.

anodising

AgTiO2

silver

ion implantation

silver release

Hg²⁺ Causes Neurotoxicity at an Intracellular Site Following Entry Through Na and Ca Channels

Miyamoto, Michael D.

16 May 1983

At motor nerve terminals, Hg2+ causes (a) irreversible depolarization, (b) increase in transmitter release, and (c) subsequent irreversible block of transmitter release. All effects are antagonized when a Na channel blocker (tetrodotoxin, TTX) and a Ca channel blocker (Co2+) are present, but not when either blocker is used alone. The effects are not antagonized by TTX plus Co2+ when the mercurial is lipid-soluble (methylmercury). This indicates that the neurotoxic action of Hg2+ is at an intracellular site and that entry is gained through both Na and Ca channels. The results suggest that metals may inhibit transmitter release at either the Ca channel or at the release site, but that irreversible toxicity is due to an intracellular action, possibly involving SH groups.

mercury

methylmercury

neuromuscular junction

neurotoxicity

transmitter release

Effects of Capsaicin on Release of Substance P-Like Immunoreactivity and Physiological Parameters in Isolated Perfused Guinea-Pig Heart

Hoover, Donald B.

23 September 1987

Release of substance P-like immunoreactivity (SP-LI) was measured from isolated perfused guinea-pig hearts. Capsaicin (1 μM) caused a substantial increase in the amount of SP-LI detected in perfusate compared to values during exposure to vehicle or drug-free buffer. Tachyphylaxis developed to the effect of capsaicin on release of SP-LI and to its effect on physiological parameters. These data show SP-LI can be released from cardiac sensory nerves and suggest SP could mediate a portion of the response of the isolated heart to capsaicin.

(release)

capsaicin

heart

substance P

Biomedical Sciences

Ground Forces Impact on Release of Rotational Shot Put Technique

Arrhenius, Niklas B

01 December 2014

In the shot put throw, the primary power is generated in the form of ground reaction forces as a result of action of the lower extremities (Coh, Stuhec, & Supej, 2008). The purpose of this study was to determine how the ground reaction force and ground contact time during the delivery phase of rotational shot put relates to the predicted distance of the throw. This will allow us to determine the optimal approach of force application for maximum throwing distance (Linthorne, 2001). Eight male subjects were used in this study (age 23 ± 4 y; body mass 123 ± 14 kg; height 190 ± 4 cm; all right handed). Subjects threw three attempts in a custom-built shot put ring where two force plates were located where both feet were expected to land in the delivery. The throws were also filmed using two high-speed cameras at 120 frames/s. These videos gave us the speed, angle and height of release for predicting distance thrown. Results: Peak right leg force during delivery was correlated with throwing distance (R2 = 0.450, p = 0.001). Also, left leg ground time was significant with predicted throwing distance (R² = 0.516, p < 0.001). Because increased strength leads to greater throwing distances (Zaras et al., 2013) and peak right leg force was significant, it would be useful to perform proper strength training exercises that can increase a thrower's ability to increase the peak ground forces during a throw. If the thrower can produce greater peak force into the ground with the right leg during the delivery phase, this should cause the thrower to come off their left leg sooner, resulting in greater speed of release and thus distance thrown.

shot put

forces

release

Exercise Science

HARDWOOD REGENERATION AND GROWTH FOLLOWING MULTIPLE SILVICULTURAL TREATMENTS IN A CENTRAL HARDWOOD FOREST

Inglis, Emily

01 May 2022

The Central Hardwood Region (CHR) is experiencing a lack of desirable hardwood regeneration on productive sites across the landscape. To better understand what facilitates desirable hardwood regeneration, additional studies that test the interaction of multiple disturbances are needed. For this reason, a demonstration area on the north end of Trail of Tears State Forest (Union County, Illinois) was established to compare hardwood regeneration response following four treatments: (1) burn only, (2) thin/burn, (3) harvest/thin/burn, and (4) control. Treatments were implemented beginning in 2014 to determine what combination of silvicultural practices best promotes desirable hardwood regeneration among large saplings (>3.3’ in height and 1” DBH to 3” DBH), small saplings (>3.3’ in height and up to 1” DBH), and seedlings (1”- 3.3’ in height) and increases midstory Quercus alba radial growth (stems >3” DBH). Eighty plots were surveyed in the summer of 2021, and overstory, regeneration, and canopy openness data were collected. Midstory Q. alba individuals were cored to elucidate the relationship of radial growth and silvicultural treatments. There was no significant difference of Quercus spp. density among treatments for any regeneration size class. No silvicultural releases were detected in midstory Q. alba individuals since treatment application in 2014. These results indicate that either there had not been enough time since treatment application, or the management practices did not alter canopy openness enough to cause a radial growth increase. Given the absence of Quercus spp. regeneration and growth using the four treatments, I suggest managers should also consider other factors such as deer population densities, non-Quercus competition vigor, and forest floor light availability when attempting to regenerate productive forests in the CHR.

Central Hardwood Region

Quercus

Regeneration

release

Male-Female Communication in the Crayfish Orconectes Rusticus: The Use of Urinary Signals in Reproductive and Non-Reproductive Pairings

Simon, Jodie L.

31 May 2006

No description available.

Chemical communication

crayfish

reproduction

urine release

A Chitosan–Polymer Hydrogel Bead System For A Metformin HCl Controlled Release Oral Dosage Form

Dogra, Sanjeev

25 May 2011

No description available.

Pharmaceuticals

polyelectrolyte complex

release retardant system

IN SITU FORMING PHOTODEGRADABLE HYDROGEL FOR CONTROLLED DELIVERY OF siRNA

Zheng, Zijie

03 September 2015

No description available.

Biomedical Engineering

EVALUATION OF SILICONE ELASTOMERS FOR TABLET COATING

SCHULZE NAHRUP, JULIA

16 May 2003

No description available.

polydimethylsiloxane

controlled drug release

silicone

crosslinking

elastomer

Pretrial release and social contexts: Is there a link? (Does the effect of race on pretrial release decisions vary across county?)

Ryu, Junhyuk

17 April 2009

No description available.

Criminology

Pretrial release

social context

race