Your search keyword '"van der Heide E"' showing total 45 results

1. Strategies in surface engineering for the regulation of microclimates in skin-medical product interactions

Author

Reuvekamp, H., Hekman, E.E.G., van der Heide, E., and Matthews, D.T.A.

Published

2024

2. Normalising tactile friction

Author

Sergachev, D.A., Matthews, D.T.A., and van der Heide, E.

Published

2021

3. An Empirical Approach for the Determination of Skin Elasticity: Finger pad Friction against Textured Surfaces

Author

Sergachev, D.A., Matthews, D.T.A., and van der Heide, E.

Published

2019

4. Rain erosion resistance of injection moulded and compression moulded polybutylene terephthalate PBT

Author

Slot, H.M., IJzerman, R.M., le Feber, M., Nord-Varhaug, K., and van der Heide, E.

Published

2018

5. Texture design for light touch perception

Author

Zhang, S., Zeng, X., Matthews, D.T.A., Igartua, A., Rodriguez–Vidal, E., Fortes, J. Contreras, and Van Der Heide, E.

Published

2017

6. On the role of adhesive forces in the tribo-mechanical performance of ex vivo human skin

Author

Morales-Hurtado, M., de Vries, E.G., Peppelman, M., Zeng, X., van Erp, P.E.J., and van der Heide, E.

Published

2017

7. Tribological behaviour of skin equivalents and ex-vivo human skin against the material components of artificial turf in sliding contact

Author

Hurtado, M. Morales, Peppelman, M., Zeng, X., van Erp, P.E.J., and Van Der Heide, E.

Published

2016

8. A tribo-mechanical analysis of PVA-based building-blocks for implementation in a 2-layered skin model

Author

Morales Hurtado, M., de Vries, E.G., Zeng, X., and van der Heide, E.

Published

2016

9. Abrasive wear based predictive maintenance for systems operating in sandy conditions

Author

Woldman, M., Tinga, T., Van Der Heide, E., and Masen, M.A.

Published

2015

10. Leading edge erosion of coated wind turbine blades: Review of coating life models

Author

Slot, H.M., Gelinck, E.R.M., Rentrop, C., and van der Heide, E.

Published

2015

11. Exploring an alternative aqueous lubrication concept for biomedical applications: Hydration lubrication based on O/W emulsions combined with graphene oxide

Author

Yan, J.C., Zeng, X.Q., Ren, T.H., and van der Heide, E.

Published

2015

12. A new water absorbable mechanical Epidermal skin equivalent: The combination of hydrophobic PDMS and hydrophilic PVA hydrogel

Author

Morales-Hurtado, M., Zeng, X., Gonzalez-Rodriguez, P., Ten Elshof, J.E., and van der Heide, E.

Published

2015

13. Texture Design for Reducing Tactile Friction Independent of Sliding Orientation on Stainless Steel Sheet

Author

Zhang, S., Zeng, X., Igartua, A., Rodriguez-Vidal, E., and van der Heide, E.

Published

2017

14. Selection of micro-fabrication techniques on stainless steel sheet for skin friction

Author

Zhang, S., Zeng, X., Matthews, D. T. A., Igartua, A., Rodriguez-Vidal, E., Contreras Fortes, J., Saenz de Viteri, V., Pagano, F., Wadman, B., Wiklund, E. D., and van der Heide, E.

Published

2016

15. Dopamine hydrochloride and carboxymethyl chitosan coatings for multifilament surgical suture and their influence on friction during sliding contact with skin substitute

Author

Zhang, Gangqiang (author), Zheng, Ganlin (author), Ren, Tianhui (author), Zeng, Xiangqiong (author), van der Heide, E. (author), Zhang, Gangqiang (author), Zheng, Ganlin (author), Ren, Tianhui (author), Zeng, Xiangqiong (author), and van der Heide, E. (author)

Abstract

In order to reduce the damage to tissue and fill the interstices between fibers, multifilament sutures are frequently treated with certain coating materials. The objective of this study was to create and characterize dopamine hydrochloride (DA) and carboxymethyl chitosan (CMCS) coatings on surgical sutures and investigate their effects on the frictional performance of the surgical sutures during sliding through a skin substitute. The effects of the treatment on the physical and chemical characteristics of the surgical sutures were evaluated. The friction force of the surgical sutures during sliding through the skin substitute was experimentally determined using a penetration friction apparatus. The coefficient of friction (COF) was calculated using a linear elastic model and was used to estimate the frictional behavior of the surgical suture-skin interactions. The results showed that the DA coating could evenly deposit on the surface of the etched multifilament surgical suture surfaces in a weakly alkaline buffer solution. The CMCS coating material could form a uniform film on the surface of the sutures. Minor changes in the surface roughness of the multifilament surgical sutures with different treatments occurred in this study. The friction force and the COF of the multifilament surgical sutures with DA and CMCS coating showed little change when compared with untreated multifilament surgical sutures., Railway Engineering

Published

2020

16. Basic Theory of Solid Friction

Author

van der Heide, E., Schipper, D.J., and Totten, George E.

Published

2017

17. Finger pad friction and tactile perception of laser treated, stamped and cold rolled micro-structured stainless steel sheet surfaces

Author

Zhang, S., primary, Zeng, X., additional, Matthews, D. T. A., additional, Igartua, A., additional, Rodriguez–Vidal, E., additional, Contreras Fortes, J., additional, and Van Der Heide, E., additional

Published

2017

18. Texture Design for Reducing Tactile Friction Independent of Sliding Orientation on Stainless Steel Sheet

Author

Zhang, S. (author), Zeng, X. (author), Igartua, A. (author), Rodriguez-Vidal, E. (author), van der Heide, E. (author), Zhang, S. (author), Zeng, X. (author), Igartua, A. (author), Rodriguez-Vidal, E. (author), and van der Heide, E. (author)

Abstract

Surface texture is important for contact mechanical and tribological phenomena such as the contact area and friction. In this research, three different types of geometrical microstructures were designed and fabricated by pulsed laser surface texturing as semi-symmetric (grooved channel), asymmetric fractal (Hilbert curve), and symmetric patterns (grid). A conventionally finished surface as a reference sample from the same stainless steel sheet material was compared. From the experimental approach, a multiaxis force/torque transducer was used to investigate the functionality of surface texture based on measuring the tactile friction in three different sliding directions: perpendicular, parallel, and 45° to the textures. According to the dynamic friction measurements, the grid texture was indeed orientation independent. The other samples showed orientation-dependent frictional behavior, especially the grooved channel texture and reference sample. Furthermore, an analytical approach was applied to estimate the values of the friction coefficient by the pressure distribution method. From both the experimental and analytical approaches, the grid pattern was validated to be the optimal texture design in the concern of friction reduction and orientation-independent behavior., Railway Engineering

Published

2017

19. Finger pad friction and tactile perception of laser treated, stamped and cold rolled micro-structured stainless steel sheet surfaces

Author

Zhang, S. (author), Zeng, X. (author), Matthews, D. T A (author), Igartua, A. (author), Rodriguez-Vidal, E. (author), Contreras Fortes, J. (author), van der Heide, E. (author), Zhang, S. (author), Zeng, X. (author), Matthews, D. T A (author), Igartua, A. (author), Rodriguez-Vidal, E. (author), Contreras Fortes, J. (author), and van der Heide, E. (author)

Abstract

Tactile perception is a complex system, which depends on frictional interactions between skin and counter-body. The contact mechanics of tactile friction is governed by many factors such as the state and properties of skin and counter-body. In order to discover the connection between perception and tactile friction on textured stainless steel sheets, both perception experiments (subjective) and tactile friction measurements (objective) were performed in this research. The perception experiments were carried out by using a panel test method to identify the perceived roughness, perceived stickiness and comfort level from the participants. For the friction experiments, tactile friction was measured by a multi-axis force/torque transducer in vivo. The perceived stickiness was illustrated as an effective subjective stimulus, which has a negative correlation to the comfort perception. No significant evidence was revealed to the connection between the perceived roughness and comfort perception, and this relationship may be influenced by the participants’ individual experience, gender and moisture level of skin. Furthermore, the kinetic tactile friction was concluded as an objective stimulus to the comfort perception with a negative correlation., Railway Engineering

Published

2017

20. Influence of surgical suture properties on the tribological interactions with artificial skin by a capstan experiment approach

Author

Zhang, Gangqiang (author), Ren, Tianhui (author), Zeng, Xiangqiong (author), van der Heide, E. (author), Zhang, Gangqiang (author), Ren, Tianhui (author), Zeng, Xiangqiong (author), and van der Heide, E. (author)

Abstract

Tribological interactions between surgical suture and human tissue play an important role in the stitching process. The purpose of the paper is to understanding the tribological behavior of surgical suture interacting with artificial skin, with respect to surgical suture material and structure, by means of a capstan experiment approach and a contact area model. The results indicated that structure and surface topography of the surgical suture had a pronounced effect on the tribological interactions. The apparent coefficient of friction of vicryl surgical suture was the smallest among the three surgical suture materials. As the sliding velocity increased, or the applied load decreased, the coefficient of friction increased. Furthermore, stick-slip phenomena were observed during the sliding procedure., Railway Engineering

Published

2017

21. Selection of micro-fabrication techniques on stainless steel sheet for skin friction

Author

Zhang, S. (author), Zeng, X. (author), Matthews, D. T A (author), Igartua, A. (author), Rodriguez-Vidal, E. (author), Contreras Fortes, J. (author), Saenz de Viteri, V. (author), Pagano, F. (author), Wadman, B. (author), Wiklund, E. D. (author), van der Heide, E. (author), Zhang, S. (author), Zeng, X. (author), Matthews, D. T A (author), Igartua, A. (author), Rodriguez-Vidal, E. (author), Contreras Fortes, J. (author), Saenz de Viteri, V. (author), Pagano, F. (author), Wadman, B. (author), Wiklund, E. D. (author), and van der Heide, E. (author)

Abstract

This review gives a concise introduction to the state-of-art techniques used for surface texturing, e.g., wet etching, plasma etching, laser surface texturing (LST), 3D printing, etc. In order to fabricate deterministic textures with the desired geometric structures and scales, the innovative texturing technologies are developed and extended. Such texturing technology is an emerging frontier with revolutionary impact in industrial and scientific fields. With the help of the latest fabrication technologies, surface textures are scaling down and more complex deterministic patterns may be fabricated with desired functions, e.g., lotus effect (hydrophobic), gecko feet (adhesive), haptic tactile, etc. The objective of this review is to explore the surface texturing technology and its contributions to the applications., Railway Engineering

Published

2016

22. Sexual dimorphism in livestock species selected for economically important traits1

Author

van der Heide, E. M. M., primary, Lourenco, D. A. L., additional, Chen, C. Y., additional, Herring, W. O., additional, Sapp, R. L., additional, Moser, D. W., additional, Tsuruta, S., additional, Masuda, Y., additional, Ducro, B. J., additional, and Misztal, I., additional

Published

2016

23. Silicon 5 Codegeneratie

Author

Dunnewind, M. (author), Van der Heide, E. (author), Dunnewind, M. (author), and Van der Heide, E. (author)

Abstract

Het doel van het project was de ontwikkeling van een codegenerator om snel nieuwe webprojecten op te kunnen starten. Het bedrijf Fenêtre ontwikkelt complexe internetapplicaties met behulp van een eigen framework. De projecten die met dit framework, Silicon 5, worden gemaakt bevatten vaak project-specieke entiteiten. Voor deze entiteiten zijn bijna altijd onderhoudsschermen nodig. Elk project is uniek, daarom zullen deze schermen voor elk project op een andere manier gebouwd moeten worden. Dit is een tijdrovend proces. Omdat alle schermen volgens dezelfde structuur zijn gemaaktkan het bouwen van de schermen signicant versneld worden met een codegenerator. De uitdaging zat in het zo goed mogelijk benutten van de beschikbare informatie over de tabellen in het framework. Door een reeds bestaande generator is van elke databasetabel een model gemaakt. De combinatie van de metadata uit de database en de beschikbare modellen, biedt veel mogelijkheden. Voornamelijk het analyseren en genereren van de elementen voor relaties tussen verschillende tabellen en views (en dus tussen schermen) is een uitdaging. Samen met het bedrijf zijn op dit gebied veel complexe problemen bediscussieerd en aangepakt. Het eindproduct is een volledig werkende applicatie die aan bijna alle gestelde eisen voldoet. De ap-plicatie biedt de mogelijkheid om met enkele klikken een serie schermen te genereren op basis van een databasetabel. Deze nieuwe schermen zijn daarna direct te gebruiken in de webapplicatie, inclusief bijkomende functionaliteiten zoals het bewerken van data. Wensen en mogelijkheden die tijdens het project zijn ontdekt, zijn geformuleerd in een lijst van aanbevelingen. De ontwikkelaars bij Fenêtre zullen deze generator gaan gebruiken bij het opstarten van projecten. Een aantal schermen die standaard in het framework zitten, zijn zelfs al gemaakt met de generator. Daarnaast zal de generator ook met zekerheid nog verder uitgebreid worden met extra functionaliteiten., Bachelor Project, Computer Science, Electrical Engineering, Mathematics and Computer Science

Published

2015

24. The Effect of Layer Variation Between Liner and Cement Mantle on Reducing Cracks of PMMA Material Hip Joints

Author

Saputra Eko, Jamari J, Lie Han Ay, Anwar Iwan Budiwan, Ismail Rifky, Tauviqirrahman Mohammad, and van der Heide Emile

Subjects

Cement mantle, liner, PMMA, hip joint, crack, stress, Environmental sciences, GE1-350

Abstract

Failure of cement mantle of bond loosening between liner and cement mantle is an important issue in total hip replacement. Two factors that commonly cause cement mantle failure are initial crack and stress. A solution for reducing stress on the cement mantle has been proposed by adding insertion material between liner and cement mantle. Nevertheless, further study is needed to optimize the proposed solution. A possible option is to vary the thickness of the insertion material. If the thickness of the PMMA material is constant, then the variation of the insertion thickness will be followed by the variation of the thickness of the liner. Consequently, the stress value on the liner will follow the variation of liner thickness. The objective of this study is to examine the effect of the thickness variation of the insertion material to stress on cement mantle and liner using finite element simulation. Results revealed that the magnitude of stress and deflection decreased in the cement mantle and the liner along with the increasing thickness of the insertion material.

Published

2018

25. Sonic ambiances through fundamental needs: An approach on soundscape interventions for intensive care patientsa).

Author

Louwers G, Pont S, Gommers D, van der Heide E, and Özcan E

Subjects

Humans, Female, Male, Adult, Middle Aged, Critical Care methods, Pleasure, Sound, Acoustic Stimulation, Intensive Care Units, Arousal, Aged, Young Adult, Motivation, Auditory Perception

Abstract

We explored the underpinnings of providing positive listener experiences for intensive care unit (ICU) patients with compositions of added sounds. Our objective was to derive an approach to such interventions based on soundscape perception and need fulfillment. In one study, we gathered qualitative empirical data about imagined soundscapes where nine fundamental needs were fulfilled. Hierarchical clustering and thematic analysis showed that imagined soundscapes clustered into four types of sonic ambiances, i.e., affective connotations with soundscapes: Comfortable, Pleasurable, Motivating, or Stimulating ambiances. We derived four design parameters to achieve these ambiances with sound compositions: eventfulness, sonic ambiance qualities, narrative structure, and sound distribution. A sound artist was asked to use these parameters to create sound compositions. In a listening experiment, we examined their effects on the perceived pleasantness and eventfulness of soundscapes and on listeners' experienced pleasure and arousal. Soundscapes were perceived as pleasant with varying eventfulness in line with our structured approach. We found a strong correlation between pleasantness and with listener's pleasure and a moderate correlation between eventfulness and with listener's arousal. Finally, we suggested that in future research, three sonic ambiance types should be considered rather than four. Concluding, we showed that our need-driven approach could form a promising way to support ICU patients., (© 2024 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).)

Published

2024

26. The effect of coating characteristics on implant-bone interface mechanics.

Author

Sánchez E, de Vries E, Matthews D, van der Heide E, and Janssen D

Subjects

Humans, Bone and Bones, Bone-Implant Interface, Prostheses and Implants, Osseointegration

Abstract

Successful osseointegration of press-fit implants depends on the initial stability, often measured by the micromotions between the implant and bone. A good primary stability can be achieved by optimizing the compressive and frictional forces acting at the bone-implant interface. The frictional properties of the implant-bone interface, which depend on the roughness and porosity of the implant surface coating, can affect the primary stability. Several reversible (elastic) and non-reversible (permanent) deformation processes take place during frictional loading of the implant-bone interface. In case of a rough coating, the asperities of the implant surface are compressed into the bone leading to mechanical interlocking. To optimize fixation of orthopaedic implants it is crucial to understand these complex interactions between coating and bone. The objective of the current study was to gain more insight into the reversible and non-reversible processes acting at the implant-bone interface. Tribological experiments were performed with two types of porous coatings against human cadaveric bone. The results indicated that the coefficient of friction depended on the coating roughness (0.86, 0.95, and 0.45 for an Ra roughness of 41.2, 53.0, and a polished surface, respectively). Larger elastic and permanent displacements were found for the rougher coating, resulting in a lower interface stiffness. The experiments furthermore revealed that relative displacements of up to 35 µm can occur without sliding at the interface. These findings have implications for micromotion thresholds that currently are assumed for osseointegration, and suggest that bone ingrowth actually occurs in the absence of relative sliding at the implant-bone interface., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Financial support was received from Aesculap AG (B. Braun, Tuttlingen, Germany). Aesculap AG did not have any role in design of the study, data analysis, decision to publish or manuscript preparation., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

27. Analysis of contact pressure in a 3D model of dual-mobility hip joint prosthesis under a gait cycle.

Author

Tauviqirrahman M, Ammarullah MI, Jamari J, Saputra E, Winarni TI, Kurniawan FD, Shiddiq SA, and van der Heide E

Subjects

Humans, Computer Simulation, Femur Head, Gait, Acetabulum surgery, Hip Prosthesis

Abstract

Hip joint prostheses are used to replace hip joint function in the human body. The latest dual-mobility hip joint prosthesis has an additional component of an outer liner that acts as a cover for the liner component. Research on the contact pressure generated on the latest model of a dual-mobility hip joint prosthesis under a gait cycle has never been done before. The model is made of ultrahigh molecular weight polyethylene (UHMWPE) on the inner liner and 316L stainless steel (SS 316L) on the outer liner and acetabular cup. Simulation modeling using the finite element method is considered static loading with an implicit solver for studying the geometric parameter design of dual-mobility hip joint prostheses. In this study, simulation modeling was carried out by applying varying inclination angles of 30°, 40°, 45°, 50°, 60°, and 70° to the acetabular cup component. Three-dimensional loads were placed on femoral head reference points with variations of femoral head diameter used at 22 mm, 28 mm, and 32 mm. The results in the inner surface of the inner liner, the outer surface of the outer liner, and the inner surface of the acetabular cup showed that the variations in inclination angle do not have a major effect on the maximum contact pressure value on the liner component, where the acetabular cup with an inclination angle of 45° can reduce contact pressure more than the other studied inclination angle variations. In addition, it was found that the 22 mm diameter of the femoral head increases the contact pressure. The use of a larger diameter femoral head with an acetabular cup configuration at a 45° inclination can minimize the risk of implant failure due to wear., (© 2023. The Author(s).)

Published

2023

28. Adopted walking condition for computational simulation approach on bearing of hip joint prosthesis: review over the past 30 years.

Author

Jamari J, Ammarullah MI, Santoso G, Sugiharto S, Supriyono T, Permana MS, Winarni TI, and van der Heide E

Abstract

Bearing on artificial hip joint experiences friction, wear, and surface damage that impact on overall performance and leading to failure at a particular time due to continuous contact that endangers the user. Assessing bearing hip joint using clinical study, experimental testing, and mathematical formula approach is challenging because there are some obstacles from each approach. Computational simulation is an effective alternative approach that is affordable, relatively fast, and more accessible than other approaches in examining various complex conditions requiring extensive resources and several different parameters. In particular, different gait cycles affect the sliding distance and distribution of gait loading acting on the joints. Appropriate selection and addition of gait cycles in computation modelling are crucial for accurate and reliable prediction and analysis of bearing performance such as wear a failure of implants. However, a wide spread of gait cycles and loading data are being considered and studied by researchers as reported in literature. The current article describes a comprehensive literature review adopted walking condition that has been carried out to study bearing using computational simulation approach over the past 30 years. Many knowledge gaps related to adoption procedures, simplification, and future research have been identified to obtain bearing analysis results with more realistic computational simulation approach according to physiological human hip joints., Competing Interests: The authors declare no conflict of interest., (© 2022 The Author(s).)

Published

2022

29. Computational Contact Pressure Prediction of CoCrMo, SS 316L and Ti6Al4V Femoral Head against UHMWPE Acetabular Cup under Gait Cycle.

Author

Jamari J, Ammarullah MI, Santoso G, Sugiharto S, Supriyono T, Prakoso AT, Basri H, and van der Heide E

Abstract

Due to various concerns about the use of metal-on-metal that is detrimental to users, the use of metal as acetabular cup material was later changed to ultra high molecular weight polyethylene (UHMWPE). However, the wear on UHMWPE releases polyethylene wear particles, which can trigger a negative body response and contribute to osteolysis. For reducing the wear of polyethylene, one of the efforts is to investigate the selection of metal materials. Cobalt chromium molybdenum (CoCrMo), stainless steel 316L (SS 316L), and titanium alloy (Ti6Al4V) are the frequently employed materials. The computational evaluation of contact pressure was carried out using a two-dimensional axisymmetric model for UHMWPE acetabular cup paired with metal femoral head under gait cycle in this study. The results show Ti6Al4V-on-UHMWPE is able to reduce cumulative contact pressure compared to SS 316L-on-UHMWPE and CoCrMo-on-UHMWPE. Compared to Ti6Al4V-on-UHMWPE at peak loading, the difference in cumulative contact pressure to respective maximum contact pressure is 9.740% for SS 316L-on-UHMWPE and 11.038% for CoCrMo-on-UHMWPE.

Published

2022

30. Predicting friction at the bone - Implant interface in cementless total knee arthroplasty.

Author

de Vries E, Sánchez E, Janssen D, Matthews D, and van der Heide E

Subjects

Bone-Implant Interface, Friction, Humans, Knee Joint surgery, Porosity, Arthroplasty, Replacement, Knee, Knee Prosthesis

Abstract

Cementless total knee arthroplasty (TKA) components have rough and porous surface coatings which can enhance bone ingrowth and stability at the bone-implant. To achieve primary stability in the postoperative period where no apposition is formed, the resistance against motions between bone and implant is optimized by increasing the friction at the interface. This is necessary, as excessive relative motions can inhibit bone ingrowth, which might result in loosening and pain. In this research, it was found that the friction can be predicted by measuring the surface morphology of rough implants, and calculating the corresponding perpendicular and lateral contact area parameters. The ratio between these areas, is used to predict the resulting coefficient of friction (COF). This is validated experimentally, by analysing the tribological behaviour of 2 porous and rough titanium coatings against human cadaveric knee bones using reciprocal friction tests with varying normal loads. The results for 2 different coatings showed similar findings for the predicted COF (0.75 and 0.88) versus the calculated values based on the measurement (0.82 and 0.86) proving the feasibility of the approach., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

31. Tresca Stress Simulation of Metal-on-Metal Total Hip Arthroplasty during Normal Walking Activity.

Author

Ammarullah MI, Afif IY, Maula MI, Winarni TI, Tauviqirrahman M, Akbar I, Basri H, van der Heide E, and Jamari J

Abstract

The selection of biomaterials for bearing in total hip arthroplasty is very important to avoid various risks of primary postoperative failure for patients. The current investigation attempts to analyze the Tresca stress of metal-on-metal bearings with three different materials, namely, cobalt chromium molybdenum (CoCrMo), stainless steel 316L (SS 316L), and titanium alloy (Ti6Al4V). We used computational simulations using a 2D axisymmetric finite element model to predict Tresca stresses under physiological conditions of the human hip joint during normal walking. The simulation results show that Ti6Al4V-on-Ti6Al4V has the best performance to reduce Tresca stress by 45.76% and 39.15%, respectively, compared to CoCrMo-on-CoCrMo and SS 316L-on-SS 316L.

Published

2021

32. The Effect of Bottom Profile Dimples on the Femoral Head on Wear in Metal-on-Metal Total Hip Arthroplasty.

Author

Jamari J, Ammarullah MI, Saad APM, Syahrom A, Uddin M, van der Heide E, and Basri H

Abstract

Wear and wear-induced debris is a significant factor in causing failure in implants. Reducing contact pressure by using a textured surface between the femoral head and acetabular cup is crucial to improving the implant's life. This study presented the effect of surface texturing as dimples on the wear evolution of total hip arthroplasty. It was implemented by developing finite element analysis from the prediction model without dimples and with bottom profile dimples of flat, drill, and ball types. Simulations were carried out by performing 3D physiological loading of the hip joint under normal walking conditions. A geometry update was initiated based on the patient's daily routine activities. Our results showed that the addition of dimples reduced contact pressure and wear. The bottom profile dimples of the ball type had the best ability to reduce wear relative to the other types, reducing cumulative linear wear by 24.3% and cumulative volumetric wear by 31% compared to no dimples. The findings demonstrated that surface texturing with appropriate dimple bottom geometry on a bearing surface is able to extend the lifetime of hip implants.

Published

2021

33. Microstructures amplify carotenoid plumage signals in tanagers.

Author

McCoy DE, Shultz AJ, Vidoudez C, van der Heide E, Dall JE, Trauger SA, and Haig D

Subjects

Animals, Carotenoids analysis, Color, Feathers chemistry, Female, Gas Chromatography-Mass Spectrometry, Male, Spectrophotometry, Carotenoids metabolism, Feathers anatomy & histology, Mating Preference, Animal, Passeriformes anatomy & histology

Abstract

Brilliantly-colored birds are a model system for research into evolution and sexual selection. Red, orange, and yellow carotenoid-colored plumages have been considered honest signals of condition; however, sex differences in feather pigments and microstructures are not well understood. Here, we show that microstructures, rather than carotenoid pigments, seem to be a major driver of male-female color differences in the social, sexually-dimorphic tanager genus Ramphocelus. We comprehensively quantified feather (i) color (using spectrophotometry), (ii) pigments (using liquid chromatography-mass spectrometry (LC-MS)), and (iii) microstructures (using scanning electron microscopy (SEM) and finite-difference time-domain (FDTD) optical modeling). Males have significantly more saturated color patches than females. However, our exploratory analysis of pigments suggested that males and females have concordant carotenoid pigment profiles across all species (MCMCglmm model, female:male ratio = 0.95). Male, but not female, feathers have elaborate microstructures which amplify color appearance. Oblong, expanded feather barbs in males enhance color saturation (for the same amount of pigment) by increasing the transmission of optical power through the feather. Dihedral barbules (vertically-angled, strap-shaped barbules) in males reduce total reflectance to generate "super black" and "velvet red" plumage. Melanin in females explains some, but not all, of the male-female plumage differences. Our results suggest that a widely cited index of honesty, carotenoid pigments, cannot fully explain male appearance. We propose that males are selected to evolve amplifiers-in this case, microstructures that enhance appearance-that are not necessarily themselves linked to quality.

Published

2021

34. Predicting survival in dairy cattle by combining genomic breeding values and phenotypic information.

Author

van der Heide EMM, Veerkamp RF, van Pelt ML, Kamphuis C, and Ducro BJ

Subjects

Animals, Cattle growth & development, Crosses, Genetic, Dairying methods, Female, Fertility, Genomics methods, Genotype, Lactation genetics, Mammary Glands, Animal, Milk, Mortality, Phenotype, Pregnancy, Probability, Survival Analysis, Breeding, Cattle genetics

Abstract

Advances in technology and improved data collection have increased the availability of genomic estimated breeding values (gEBV) and phenotypic information on dairy farms. This information could be used for the prediction of complex traits such as survival, which can in turn be used in replacement heifer management. In this study, we investigated which gEBV and phenotypic variables are of use in the prediction of survival. Survival was defined as survival to second lactation, plus 2 wk, a binary trait. A data set was obtained of 6,847 heifers that were all genotyped at birth. Each heifer had 50 gEBV and up to 62 phenotypic variables that became gradually available over time. Stepwise variable selection on 70% of the data was used to create multiple regression models to predict survival with data available at 5 decision moments: distinct points in the life of a heifer at which new phenotypic information becomes available. The remaining 30% of the data were kept apart to investigate predictive performance of the models on independent data. A combination of gEBV and phenotypic variables always resulted in the model with the highest Akaike information criterion value. The gEBV selected were longevity, feet and leg score, exterior score, udder score, and udder health score. Phenotypic variables on fertility, age at first calving, and milk quantity were important once available. It was impossible to predict individual survival accurately, but the mean predicted probability of survival of the surviving heifers was always higher than the mean predicted probability of the nonsurviving group (difference ranged from 0.014 to 0.028). The model obtained 2.0 to 3.0% more surviving heifers when the highest scoring 50% of heifers were selected compared with randomly selected heifers. Combining phenotypic information and gEBV always resulted in the highest scoring models for the prediction of survival, and especially improved early predictive performance. By selecting the heifers with the highest predicted probability of survival, increased survival could be realized at the population level in practice., (The Authors. Published by FASS Inc. and Elsevier Inc. on behalf of the American Dairy Science Association®. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).)

Published

2020

35. Comparing regression, naive Bayes, and random forest methods in the prediction of individual survival to second lactation in Holstein cattle.

Author

van der Heide EMM, Veerkamp RF, van Pelt ML, Kamphuis C, Athanasiadis I, and Ducro BJ

Subjects

Animals, Animals, Newborn, Bayes Theorem, Breeding, Cattle genetics, Female, Lactation, Parturition genetics, Pregnancy, Cattle physiology, Genome genetics, Machine Learning

Abstract

In this study, we compared multiple logistic regression, a linear method, to naive Bayes and random forest, 2 nonlinear machine-learning methods. We used all 3 methods to predict individual survival to second lactation in dairy heifers. The data set used for prediction contained 6,847 heifers born between January 2012 and June 2013, and had known survival outcomes. Each animal had 50 genomic estimated breeding values available at birth and up to 65 phenotypic variables that accumulated over time. Survival was predicted at 5 moments in life: at birth, at 18 mo, at first calving, at 6 wk after first calving, and at 200 d after first calving. The data sets were randomly split into 70% training and 30% testing sets to evaluate model performance for 20-fold validation. The methods were compared for accuracy, sensitivity, specificity, area under the curve (AUC) value, contrasts between groups for the prediction outcomes, and increase in surviving animals in a practical scenario. At birth and 18 mo, all methods had overlapping performance; no method significantly outperformed the other. At first calving, 6 wk after first calving, and 200 d after first calving, random forest and naive Bayes had overlapping performance, and both machine-learning methods outperformed multiple logistic regression. Overall, naive Bayes has the highest average AUC at all decision points up to 200 d after first calving. Random forest had the highest AUC at 200 d after first calving. All methods obtained similar increases in survival in the practical scenario. Despite this, the methods appeared to predict the survival of individual heifers differently. All methods improved over time, but the changes in mean model outcomes for surviving and non-surviving animals differed by method. Furthermore, the correlations of individual predictions between methods ranged from r = 0.417 to r = 0.700; the lowest correlations were at first calving for all methods. In short, all 3 methods were able to predict survival at a population level, because all methods improved survival in a practical scenario. However, depending on the method used, predictions for individual animals were quite different between methods., (The Authors. Published by FASS Inc. and Elsevier Inc. on behalf of the American Dairy Science Association®. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).)

Published

2019

36. Study of an Additional Layer of Cement Mantle Hip Joints for Reducing Cracks.

Author

Jamari J, Saputra E, Anwar IB, and van der Heide E

Abstract

Failure of the cement mantle in total hip arthroplasty is not a simple phenomenon. Cracking, which can be caused by crack initiation and repeated loading, can cause loosening of the acetabular liner component. A previous study showed that addition of a metal layer between the liner and acetabular could reduce the stress at the contact surface of the cement mantle. This study elaborates on the performance of the additional layer. Several material properties of the layer were simulated using finite element analysis for maximum performance. A static contact analysis was used to simulate the stresses at the contact surface of the cement mantle. The results show that an additional layer of cobalt chrome produced the best performance.

Published

2019

37. Influence of suture size on the frictional performance of surgical suture evaluated by a penetration friction measurement approach.

Author

Zhang G, Zeng X, Su Y, Borras FX, de Rooij MB, Ren T, and van der Heide E

Subjects

Friction, Humans, Materials Testing, Skin, Artificial, Sutures, Tensile Strength

Abstract

The frictional performances of surgical sutures have been found to play a vital role in their functionality. The purpose of this paper is to understand the frictional performance of multifilament surgical sutures interacting with skin substitute, by means of a penetration friction apparatus (PFA). The influence of the size of the surgical suture was investigated. The relationship between the friction force and normal force was considered, in order to evaluate the friction performance of a surgical suture penetrating a skin substitute. The friction force was measured by PFA. The normal force applied to the surgical suture was estimated based on a Hertzian contact model, a finite element model (FEM), and a uniaxial deformation model (UDM). The results indicated that the penetration friction force increased as the size of the multifilament surgical suture increased. In addition, when the normal force was predicted by UDM, it was found that the ratio between the friction force and normal force decreased as the normal force increased. A comparison of the results suggested that the UDM was appropriate in predicting the frictional behavior of surgical suturing., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

38. Study on the tribological behavior of surgical suture interacting with a skin substitute by using a penetration friction apparatus.

Author

Zhang G, Ren T, Zhang S, Zeng X, and van der Heide E

Subjects

Biomechanical Phenomena, Friction, Humans, Materials Testing instrumentation, Tensile Strength, Nylons chemistry, Polyglycolic Acid chemistry, Skin, Artificial, Suture Techniques instrumentation, Sutures

Abstract

Surgical sutures have different sizes, structures, whereas they are being used for various surgeries. The high friction performance of surgical sutures in the suturing process may cause inflammation and pain, leading to a longer recovery time. This paper presents an understanding of the tribological behavior of surgical suture with monofilament and multifilament structures, by means of a penetration friction apparatus (PFA). The results indicated that structure and surface topography of the surgical suture had a pronounced effect on the tribological interactions. It was found that the friction force and abrasion area of skin substitute with the penetration of polyglycolic acid (PGA) multifilament surgical suture were larger than that of Nylon monofilament surgical suture. Meanwhile, more abrasion at the pull-in boundary of skin substitute was observed compared with that at the pull-out boundary., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

39. Initial Response of Human Bone Marrow-Derived Stem Cells after Contact with Ultrahigh-Molecular-Weight Polyethylene (UHMWPE) Material: An In Vitro Study on Cell Viability and Interleukin-6 Expression.

Author

Anwar IB, Santoso A, Saputra E, Ismail R, Jamari J, and van der Heide E

Abstract

Introduction: Ultrahigh-molecular-weight polyethylene (UHMWPE) is a thermoplastic polymer useful in biomaterial applications, especially in orthopedic field. Yet, little is known concerning its initial effect on human bone marrow stem cells (hBMSCs) after implantation., Materials and Methods: A cytotoxicity analysis was performed with a 3-(4,5-dimethylthiazol 2-yl)-2,5-diphenyltetrazolium assay after 24, 48, and 72h of incubation of hBMSC culture. Expression of interleukin-6 (IL-6) was measured using enzyme-linked immunosorbent assay. Cell viability was measured with Inhibitory concentration 50% (IC 50 ) formula., Results: All treatment groups showed a cell viability of >50% ranging from 78% to >100%. Lower expression of IL-6 of hBMSC compared to control group was found in 48h of incubation period., Conclusion: hBMSC showed high cell viability after initial contact with UHMWPE material. Modulation of IL-6 expression was present at the initial stage as a response to foreign material., Competing Interests: There are no conflicts of interest.

Published

2018

40. Development of a penetration friction apparatus (PFA) to measure the frictional performance of surgical suture.

Author

Zhang G, Ren T, Lette W, Zeng X, and van der Heide E

Subjects

Humans, Needles, Friction, Sutures

Abstract

Nowadays there is a wide variety of surgical sutures available in the market. Surgical sutures have different sizes, structures, materials and coatings, whereas they are being used for various surgeries. The frictional performances of surgical sutures have been found to play a vital role in their functionality. The high friction force of surgical sutures in the suturing process may cause inflammation and pain to the person, leading to a longer recovery time, and the second trauma of soft or fragile tissue. Thus, the investigation into the frictional performance of surgical suture is essential. Despite the unquestionable fact, little is actually known on the friction performances of surgical suture-tissue due to the lack of appropriate test equipment. This study presents a new penetration friction apparatus (PFA) that allowed for the evaluation of the friction performances of various surgical needles and sutures during the suturing process, under different contact conditions. It considered the deformation of tissue and can realize the puncture force measurements of surgical needles as well as the friction force of surgical sutures. The developed PFA could accurately evaluate and understand the frictional behaviour of surgical suture-tissue in the simulating clinical conditions. The forces measured by the PFA showed the same trend as that reported in literatures., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

41. Range of Motion Simulation of Hip Joint Movement During Salat Activity.

Author

Jamari J, Anwar IB, Saputra E, and van der Heide E

Subjects

Computer Simulation, Hip Joint pathology, Humans, Islam, Models, Anatomic, Motion, Posture, Rotation, Hip Joint surgery, Movement, Range of Motion, Articular, Religion

Abstract

Background: Impingement of an artificial hip joint because of limited range of motion (RoM) during human activity is one of the main sources of hip joint failure. The aim of this article is to simulate the RoMs of hip joints during salat, the practice of formal worship in Islam., Methods: Salat consists of several stages which can be represented with a cycle (raka'ah). Every raka'ah consists of standing, bowing (ruku'), straightening up (i'tidal), transition of standing toward prostrating, prostrating (sujud), and sitting. A virtual skeleton model was used to analyze the motion during salat for the possibility of the impingement occurrence., Results: The results of the simulation were presented in terms of maximum flexion, abduction, and internal or external rotation. The results also showed that the prostration position is similar in RoM with the Japanese zarei position and similar in RoM to pick up an object while sitting on a chair., Conclusion: Specific aspects of salat such as the difference in position of the 2 legs at the last sitting position create an extreme RoM which in turn results in a high risk of impingement., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

42. Human Bone Marrow-Derived Mesenchymal Cell Reactions to 316L Stainless Steel: An in Vitro Study on Cell Viability and Interleukin-6 Expression.

Author

Anwar IB, Santoso A, Saputra E, Ismail R, Jamari J, and Van der Heide E

Abstract

Purpose: Human bone marrow-derived mesenchymal cell (hBMC) reactions to 316L stainless steel (316L-SS) have never been evaluated. The objective of this study was to assess cell viability and interleukin-6 expression of hBMC cultures upon treatment with a 316L-SS implant. Methods: A cytotoxicity analysis was conducted with a 3-(4,5-dimethylthiazol 2-yl)-2,5-diphenyltetrazolium (MTT) assay after a period of 24, 48 and 72 hours of incubation. Expression of interleukin-6 was measured using enzyme-linked immunosorbent assay (ELISA). Results: Cell viability measurement was performed via IC50 formula. All treatment group showed a > 50 % cell viability with a range of 56,5 - 96,9 % at 24 hours, 51,8-77,3% at 48 hours and 70,1- 120 % at 72 hours. Interleukin-6 expression was downregulated subsequent to treatment with 316L-SS compared to the control group. Conclusion: We found that 316L-SS did not exhibit toxicity towards hBMC culture.

Published

2017

43. Biological and Tribological Assessment of Poly(Ethylene Oxide Terephthalate)/Poly(Butylene Terephthalate), Polycaprolactone, and Poly (L\DL) Lactic Acid Plotted Scaffolds for Skeletal Tissue Regeneration.

Author

Hendrikson WJ, Zeng X, Rouwkema J, van Blitterswijk CA, van der Heide E, and Moroni L

Subjects

Alkaline Phosphatase metabolism, Animals, Biocompatible Materials pharmacology, Bone and Bones drug effects, Cell Differentiation drug effects, Cells, Cultured, DNA metabolism, Extracellular Matrix metabolism, Friction, Glycosaminoglycans metabolism, Humans, Mesenchymal Stem Cells cytology, Methylene Blue metabolism, Rats, Bone and Bones physiology, Lactic Acid pharmacology, Polyesters pharmacology, Polyethylene Glycols pharmacology, Polymers pharmacology, Regeneration drug effects, Tissue Scaffolds chemistry

Abstract

Additive manufactured scaffolds are fabricated from three commonly used biomaterials, polycaprolactone (PCL), poly (L\DL) lactic acid (P(L\DL)LA), and poly(ethylene oxide terephthalate)/poly(butylene terephthalate) (PEOT/PBT). Scaffolds are compared biologically and tribologically. Cell-seeded PEOT/PBT scaffolds cultured in osteogenic and chondrogenic differentiation media show statistical significantly higher alkaline phosphatase (ALP) activity/DNA and glycosaminoglycans (GAG)/DNA ratios, followed by PCL and P(L\DL)LA scaffolds, respectively. The tribological performance is assessed by determining the friction coefficients of the scaffolds at different loads and sliding velocities. With increasing load or decreasing sliding velocity, the friction coefficient value decreases. PEOT/PBT show to have the lowest friction coefficient value, followed by PCL and P(L\DL)LA. The influence of the scaffold architecture is further determined with PEOT/PBT. Reducing of the fiber spacing results in a lower friction coefficient value. The best and the worst performing scaffold architecture are chosen to investigate the effect of cell culture on the friction coefficient. Matrix deposition is low in the cell-seeded scaffolds and the effect is, therefore, undetermined. Taken together, our studies show that PEOT/PBT scaffolds support better skeletal differentiation of seeded stromal cells and lower friction coefficient compared to PCL and P(L/DL)A scaffolds., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

44. Validation of renal artery dimensions measured by magnetic resonance angiography in patients referred for renal sympathetic denervation.

Author

van Kranenburg M, Karanasos A, Chelu RG, van der Heide E, Ouhlous M, Nieman K, van Mieghem N, Krestin G, Niessen W, Zijlstra F, van Geuns RJ, and Daemen J

Subjects

Anatomic Landmarks diagnostic imaging, Contrast Media administration & dosage, Humans, Imaging, Three-Dimensional statistics & numerical data, Injections, Intravenous, Observer Variation, Organometallic Compounds administration & dosage, Renal Artery Obstruction diagnostic imaging, Reproducibility of Results, Ultrasonography, Interventional statistics & numerical data, Kidney innervation, Magnetic Resonance Angiography statistics & numerical data, Renal Artery diagnostic imaging, Sympathectomy methods

Abstract

Rationale and Objectives: Magnetic resonance angiography (MRA) is a well-established modality for the assessment of renal artery stenosis. Using dedicated quantitative analyses, MRA can become a useful tool for assessing renal artery dimensions in patients referred for renal sympathetic denervation (RDN) and for providing accurate measurements of vascular response after RDN. The purpose of this study was to test the reproducibility of a novel MRA quantitative imaging tool and to validate these measurements against intravascular ultrasound (IVUS)., Materials and Methods: In nine patients referred for renal denervation, renal artery dimensions were measured. Bland-Altman analysis was used to assess the intraobserver and interobserver reproducibility., Results: Mean lumen diameter was 5.8 ± 0.7 mm, with a very good intraobserver and interobserver variability of 0.7% (reproducibility: bias, 0 mm; standard deviation [SD], 0.1 mm) and 1.2% (bias, 0 mm; SD, 0.1 mm), respectively. Mean total lumen volume was 1035.3 ± 403.6 mm(3) with good intraobserver and interobserver variability of 2.9% (bias, -9.7 mm(3); SD, 34.0 mm(3)) and 2.8% (bias, -11.4 mm(3); SD, 42.4 mm(3)). The correlation (Pearson R) between mean lumen diameter measured with MRA and IVUS was 0.750 (P = .002)., Conclusions: Using a novel MRA quantitative imaging tool, renal artery dimensions can be measured with good reproducibility and accuracy. MRA-derived diameters and volumes correlated well with IVUS measurements., (Copyright © 2015 AUR. Published by Elsevier Inc. All rights reserved.)

Published

2015

45. Multimodality Intra-Arterial Imaging Assessment of the Vascular Trauma Induced by Balloon-Based and Nonballoon-Based Renal Denervation Systems.

Author

Karanasos A, Van Mieghem N, Bergmann MW, Hartman E, Ligthart J, van der Heide E, Heeger CH, Ouhlous M, Zijlstra F, Regar E, and Daemen J

Subjects

Aged, Angiography, Female, Humans, Male, Middle Aged, Prospective Studies, Tomography, Optical Coherence, Ultrasonography, Interventional, Vascular System Injuries etiology, Catheterization, Peripheral adverse effects, Multimodal Imaging, Renal Artery innervation, Sympathectomy methods, Vascular System Injuries diagnosis

Abstract

Background: Renal denervation is a new treatment considered for several possible indications. As new systems are introduced, the incidence of acute renal artery wall injury with relation to the denervation method is unknown. We investigated the acute repercussion of renal denervation on the renal arteries of patients treated with balloon-based and nonballoon-based denervation systems by quantitative angiography, intravascular ultrasound, and optical coherence tomography (OCT)., Methods and Results: Twenty-five patients (50 renal arteries) underwent bilateral renal denervation with 5 different systems, 3 of which balloon-based (Paradise [n=5], Oneshot [n=6], and Vessix V2 [n=5)]) and 2 nonballoon-based (Symplicity [n=6] and EnligHTN [n=3]). Analysis included quantitative angiography and morphometric intravascular ultrasound measurements pre and post procedure and assessment of vascular trauma (dissection, edema, or thrombus) by OCT after denervation. A significant reduction in lumen size by quantitative angiography and intravascular ultrasound was observed in nonballoon denervation but not in balloon denervation. By postdenervation OCT, dissection was seen in 14 arteries (32.6%). The percentage of frames with dissection was higher in balloon-based denervation catheters. Thrombus and edema were detected in 35 (81.4%) and 32 (74.4%) arteries, respectively. In arteries treated with balloon-based denervation that had dissection by OCT, the balloon/artery ratio was higher (1.24 [1.17-1.32] versus 1.10 [1.04-1.18]; P<0.01)., Conclusions: A varying extent of vascular injury was observed after renal denervation in all systems; however, different patterns were identified in balloon-based and in nonballoon-based denervation systems. In balloon denervation, the presence of dissections by OCT was associated with a higher balloon/artery ratio., (© 2015 American Heart Association, Inc.)

Published

2015