Your search keyword '"Stabiliteit"' showing total 7 results

1. Diagnostisch en prognostisch onderzoek

Author

Bouter, L. M., Zeegers, M. P. A., van Kuijk, S. M. J., Bouter, L.M., Zeegers, M.P.A., and van Kuijk, S.M.J.

Published

2024

2. Stabiliteit van persoonlijkheid op latere leeftijd

Author

b Mooi, hc Comijs, atf Beekman, and ajfm Kerkhof

Subjects

persoonlijkheid, ouderen, stabiliteit, Medicine

Abstract

Door middel van literatuuronderzoek wordt onderzocht wat bekend is over de invloed van veroudering op de stabiliteit van persoonlijkheid op hoge leeftijd. De resultaten van 6 longitudinale onderzoeken wijzen op voortzetting van de relatieve stabiliteit tot op hoge leeftijd. De absolute stabiliteit laat een Uvormig beloop van ‘neuroticisme’ zien met een stijging na het 80e jaar, een afname van ‘extraversie’ en een toename van ‘altruı¨sme’. De methodologische en conceptuele problemen bij onderzoek naar de ontwikkeling van persoonlijkheid op latere leeftijd kunnen grotendeels ondervangen worden door een persoonlijkheidsvragenlijst te ontwikkelen die aansluit bij de levensfase van ouderen en door de aan veroudering gerelateerde kenmerken als co-variabelen in de onderzoeksopzet te betrekken.

Published

2024

3. Step by step towards more stable walking

Author

van Leeuwen, Anina Moira and van Leeuwen, Anina Moira

Abstract

During steady-state walking both active foot placement and ankle moment control contribute to mediolateral gait stability. Ankle moment control complements foot placement by correcting foot placement error through center-of-pressure shifts during single stance. This complementary relationship may be exploited to train foot placement control . Ankle moment constraints may promote a gait pattern with a higher degree of foot placement control. Since task constraints can interact with the effects of ankle moment constraints, the mechanisms through which training effects could manifest may differ depending on using a split- or a single-belt treadmill. When older adults trained for multiple sessions, their foot placement precision improved. As they also improved their gait stability, I speculate that the complementary relationship between foot placement and ankle moment control can be exploited to train mediolateral steady-state gait stability.

Published

2023

4. Biomimetic Calcium Phosphate Coating for Orthodontic Applications

Author

Li, Menghong, Liu, Yuelian, Hu, M., and Oral Regenerative Medicine (ORM)

Subjects

oppervlakte modificatie, stabiliteit, calciumfosfaat, coating, minischroef implantaat, oppervlakte modificatie, biomimetisch, stabiliteit, roestvrij staal, titanium, coating, calcium phosphate, coating, miniscrew implant, surface modification, biomimetic, stability, stainless steel, titanium, biomimetic, stability, miniscrew implant, calcium phosphate, roestvrij staal, calciumfosfaat, titanium, minischroef implantaat, biomimetisch, stainless steel, surface modification

Abstract

Anchorage management is a key factor for successful orthodontic treatments, as it is essential to maximize desired tooth movements and mitigate unwanted forces. Skeletal anchorage, mainly miniscrew implants (MSIs) fixed to the bone, is widely used in daily orthodontic practice to achieve effective orthodontic tooth movement. Nevertheless, the clinical use of MSIs is associated with relatively low success rate, due to lack of osseointegration between implant surface and surrounding bone tissue. Therefore, this thesis aims to improve the osseointegration of MSIs by surface modification. In chapter 2, we comprehensively reviewed clinically applied surface modifications of MSIs, that is sandblasting, large-grit, acid etching (SLA), anodic oxidation (OA) and ultraviolet photofunctionalization (UVP). These techniques have positively influence in vitro and in vivo. However, the biological improvement in clinical studies is not so significant. Considering the limitation of current studies, finding an alternative to modify MSIs for bone tissue regeneration is proposed. In chapter 3, the biomimetic calcium phosphate (BioCaP) coating was successfully applied on medical grade smooth stainless steel (SSL) surface, with the immersing period in a biomimetic modified Tyrode (BMT) solution for 48 hours, followed by the same period in a supersaturated calcium phosphate solution (CPS). This optimum coating condition was selected because of the improved roughness and wettability of SSL surface after coating. Moreover, the cell seeding efficiency, cell spreading area and cell proliferation of human osteoblast-like cell MG63 were increased on the BioCaP coated SSL surface in vitro. To further explore the drug-carrier capability, and increase the osteogenic capability of the BioCaP coating, in chapter 4, BMP2 was incorporated into the BioCaP coating on smooth SSL surface, and compared with uncoated porous Ti, smooth SSL, and smooth SSL with the BioCaP coating. It showed that the BMP2 incorporated BioCaP coating was hydrophilic, with curly crystal-like morphology. In vitro studies showed that the cell seeding efficiency, cell proliferation, and osteogenic differentiation on this surface were significantly higher than that of SSL surface. In chapter 5, we aimed to evaluate the osteoconductivity of the BioCaP coating in vivo. The time-course osteointegration process of Ti mini-pin implants furnished with the BioCaP coating in a model of metaphyseal tibial was investigated, and bovine serum albumin (BSA) was involved as a model protein. A significant increase in BIC% occurred as early as at week 1 in the crystalline BioCaP coating group, compared with that at week 2 in no coating group and amorphous seeding layer group. These findings demonstrate that the BioCaP coating enhances the osteoconductivity of Ti mini-pin implants in vivo. Therefore, such surface modification has the potential in increasing the success rate of MSIs in orthodontic clinics. In chapter 6, anticancer drug-incorporated BioCaP coating on calcium phosphate particles have been proposed. Modified curcumin (mcur) was selected in this study because it can promote osteogenesis and selectively kill osteosarcoma cells.This mcur@BioCaP suppressed osteosarcoma cell and fibroblasts, and promoted osteogenesis. This mcur@BioCaP with osteogenic differentiation capability and enhanced anti-osteosarcoma effects can be a promising strategy for osteosarcoma post-surgical treatment. Based on the research described in this thesis, it can be concluded that the currently available surface modifications on miniscrew implants do not provide significant clinical improvement. Our research findings demonstrate that the BioCaP coating can be successfully applied on metallic surfaces and improves their biocompatibility and osteoconductivity. Moreover, the incorporation of BMP2 into this coating can be a promising proposal to facilitate early osseointegration. Taken together, the BioCaP coating can be a promising technique to increase the success rate of miniscrew implants in orthodontic applications.

Published

2023

5. Biomimetic Calcium Phosphate Coating for Orthodontic Applications

Subjects

oppervlakte modificatie, stabiliteit, coating, biomimetic, stability, miniscrew implant, calcium phosphate, roestvrij staal, calciumfosfaat, titanium, minischroef implantaat, biomimetisch, stainless steel, surface modification

Abstract

Anchorage management is a key factor for successful orthodontic treatments, as it is essential to maximize desired tooth movements and mitigate unwanted forces. Skeletal anchorage, mainly miniscrew implants (MSIs) fixed to the bone, is widely used in daily orthodontic practice to achieve effective orthodontic tooth movement. Nevertheless, the clinical use of MSIs is associated with relatively low success rate, due to lack of osseointegration between implant surface and surrounding bone tissue. Therefore, this thesis aims to improve the osseointegration of MSIs by surface modification. In chapter 2, we comprehensively reviewed clinically applied surface modifications of MSIs, that is sandblasting, large-grit, acid etching (SLA), anodic oxidation (OA) and ultraviolet photofunctionalization (UVP). These techniques have positively influence in vitro and in vivo. However, the biological improvement in clinical studies is not so significant. Considering the limitation of current studies, finding an alternative to modify MSIs for bone tissue regeneration is proposed. In chapter 3, the biomimetic calcium phosphate (BioCaP) coating was successfully applied on medical grade smooth stainless steel (SSL) surface, with the immersing period in a biomimetic modified Tyrode (BMT) solution for 48 hours, followed by the same period in a supersaturated calcium phosphate solution (CPS). This optimum coating condition was selected because of the improved roughness and wettability of SSL surface after coating. Moreover, the cell seeding efficiency, cell spreading area and cell proliferation of human osteoblast-like cell MG63 were increased on the BioCaP coated SSL surface in vitro. To further explore the drug-carrier capability, and increase the osteogenic capability of the BioCaP coating, in chapter 4, BMP2 was incorporated into the BioCaP coating on smooth SSL surface, and compared with uncoated porous Ti, smooth SSL, and smooth SSL with the BioCaP coating. It showed that the BMP2 incorporated BioCaP coating was hydrophilic, with curly crystal-like morphology. In vitro studies showed that the cell seeding efficiency, cell proliferation, and osteogenic differentiation on this surface were significantly higher than that of SSL surface. In chapter 5, we aimed to evaluate the osteoconductivity of the BioCaP coating in vivo. The time-course osteointegration process of Ti mini-pin implants furnished with the BioCaP coating in a model of metaphyseal tibial was investigated, and bovine serum albumin (BSA) was involved as a model protein. A significant increase in BIC% occurred as early as at week 1 in the crystalline BioCaP coating group, compared with that at week 2 in no coating group and amorphous seeding layer group. These findings demonstrate that the BioCaP coating enhances the osteoconductivity of Ti mini-pin implants in vivo. Therefore, such surface modification has the potential in increasing the success rate of MSIs in orthodontic clinics. In chapter 6, anticancer drug-incorporated BioCaP coating on calcium phosphate particles have been proposed. Modified curcumin (mcur) was selected in this study because it can promote osteogenesis and selectively kill osteosarcoma cells.This mcur@BioCaP suppressed osteosarcoma cell and fibroblasts, and promoted osteogenesis. This mcur@BioCaP with osteogenic differentiation capability and enhanced anti-osteosarcoma effects can be a promising strategy for osteosarcoma post-surgical treatment. Based on the research described in this thesis, it can be concluded that the currently available surface modifications on miniscrew implants do not provide significant clinical improvement. Our research findings demonstrate that the BioCaP coating can be successfully applied on metallic surfaces and improves their biocompatibility and osteoconductivity. Moreover, the incorporation of BMP2 into this coating can be a promising proposal to facilitate early osseointegration. Taken together, the BioCaP coating can be a promising technique to increase the success rate of miniscrew implants in orthodontic applications.

Published

2023

6. Step by step towards more stable walking

Subjects

stabiliteitstraining, foot placement control, ankle moment control, stabiliteit, LesSchuh, lopen, stability training, stability, gait, voetplaatsingscontrole, enkelmomentcontrole

Abstract

During steady-state walking both active foot placement and ankle moment control contribute to mediolateral gait stability. Ankle moment control complements foot placement by correcting foot placement error through center-of-pressure shifts during single stance. This complementary relationship may be exploited to train foot placement control . Ankle moment constraints may promote a gait pattern with a higher degree of foot placement control. Since task constraints can interact with the effects of ankle moment constraints, the mechanisms through which training effects could manifest may differ depending on using a split- or a single-belt treadmill. When older adults trained for multiple sessions, their foot placement precision improved. As they also improved their gait stability, I speculate that the complementary relationship between foot placement and ankle moment control can be exploited to train mediolateral steady-state gait stability.

Published

2023

7. Morphodynamics of channel networks in tide-influenced deltas

Author

Iwantoro, Arya Pamungkas, FG Kusten, Rivieren, Global Change, Kleinhans, Maarten, and van der Vegt, Maarten

Subjects

sedimentkorrelgrootte, riviernetwerk, sediment grain size, stabiliteit, morfodynamiek, getij, riviertak, channel slope, asymmetrie, channel network, stability, morphodynamic, steilheid van de rivierbodem, bifurcation, avulsie, tide, distributary, bifurcatie, avulsion, asymmetry

Abstract

Deltas formed and change by erosion and sedimentation of sand and mud driven by river flow, ebb and flood. Deltas often have channel networks where the upstream river channel splits in several places, known as bifurcations, into two downstream channels. At bifurcations, river flow and the tides distribute sediment over the channel network and determine the development of the entire delta landscape. In most situations in river bifurcations, one of the two downstream branches fills in and is abandoned. For bifurcations with a large influence of the tides, the distribution of flow and sediment is complex and less well understood than in river-dominated bifurcation. This thesis improves our understanding of the morphodynamics of tide-influenced bifurcations. A novel one-dimensional (1D) numerical model was developed to simulate morphodynamics in tide-influenced river networks. The results of the 1D model are validated by a well-established two-dimensional model. The outcomes show that: (1) with tides, channels are less likely to fill in and be abandoned than in river-dominated bifurcation system, and (2) in channel networks with multiple-bifurcations, the final morphological equilibrium strongly depends on the initial conditions, meaning that the delta development is a complex result of the river- and coastal processes and the history of the system.

Published

2022