Your search keyword '"Walmsley AD"' showing total 290 results

1. Acrylic dentures: fill the gap. Part 3: the most common acrylic denture cases

Author

Heran, Jasmeet, primary, Leyssen, Wouter, additional, and Walmsley, AD, additional

Published

2023

2. Acrylic dentures: fill the gap. part 2. indirect retention, major connectors, review of the design and case study

Author

Leyssen, Wouter, primary, Heran, Jasmeet, additional, and Walmsley, AD, additional

Published

2023

3. Acrylic dentures: fill the gap. Part 1. overview, support, retention, reciprocation and bracing

Author

Leyssen, Wouter, primary, Heran, Jasmeet, additional, and Walmsley, AD, additional

Published

2023

4. Online videos: The hidden curriculum

Author

da Silva, MAD, Pereira, AC, Vital, S, Marino, R, Ghanim, A, Skelton-Macedo, MC, Kavadella, A, Kakaboura, A, Uribe, SE, Johnson, I, Dalessandri, D, Walmsley, AD, da Silva, MAD, Pereira, AC, Vital, S, Marino, R, Ghanim, A, Skelton-Macedo, MC, Kavadella, A, Kakaboura, A, Uribe, SE, Johnson, I, Dalessandri, D, and Walmsley, AD

Abstract

INTRODUCTION: Dental undergraduates will access the Internet searching for learning materials to complement their training; however, open access content is not generally recommended by dental schools. This study aimed to evaluate how dental students are using online video content. MATERIALS AND METHODS: Students from eight Universities (Athens, Birmingham, Brescia, Cardiff, Melbourne, Paris, Sao Paulo and Valdivia) representing three continents were invited to complete a survey on their access and learning from online videos. RESULTS: International students behave similarly when studying dental content online. Of 515 respondents, 94.6% use the Internet as a learning tool. It was observed that videos are not frequently recommended during didactic lectures (9.6%). But many students (79.9%) will use YouTube for their learning which includes clinical procedures. Students will check online content before performing procedures for the first time (74.8%), to understand what was explained in class (65.9%) or read in books (59.5%), to relearn clinical techniques (64.7%) and to visualise rare procedures (49.8%). More than half of the students do not fully trust the accuracy or the reliability of online content. This does not prevent students from watching and sharing dental videos with classmates (64.4%). The content watched is not shared with teachers (23.3%) even when it contradicts what was learnt in the school (38.2%). CONCLUSION: This study concludes that students regularly integrate open access digital resources into learning portfolios but are hesitant to inform their teachers about their viewing habits. Students wish to receive critical skills on how to evaluate the material they encounter outside their traditional learning space.

Published

2022

5. Mouth preparation for complete dentures

Author

Leyssen, Wouter, primary, Abdelaziz, Noha, additional, and Walmsley, AD, additional

Published

2021

6. Different powered toothbrushes for plaque control and gingival health

Author

Deacon, SA, Glenny, A-M, Deery, C, Robinson, PG, Heanue, M, Walmsley, AD, and Shaw, WC

Published

2011

7. Case Guides to Complete and Partial Denture Prosthodontics

Author

Walmsley, AD, primary

Published

2020

8. Is a Ridge Classification Helpful when Assessing Edentulous Patients?

Author

Leyssen, Wouter, primary, Butt, Kasim, additional, and Walmsley, AD, additional

Published

2020

9. Investigations into the failure of dental magnets.

Author

Riley MA, Williams AJ, Speight JD, Walmsley AD, and Harris IR

Abstract

PURPOSE: The aim of this study was to determine the mechanisms of failure of magnets used for denture retention. MATERIALS AND METHODS: Magnets were retrieved from dentures that had failed after 4 to 18 months of clinical use. The magnets were sectioned and the failure modes were evaluated using optical or scanning electron microscopy. RESULTS: The magnetic retention system investigated consists of a neodymium-iron-boron magnet sandwiched in a stainless steel keeper, capped with a titanium dome, and sealed with epoxy resin. The diffusion of moisture through the epoxy seal and the breakdown of the encapsulating material led to corrosion of the magnet. In both cases, a loss in retention occurred as the corrosion products weakened the overall magnetic attraction. CONCLUSION: The failure of magnets may occur by either breakdown of the epoxy seal or breakdown of the encapsulating material. Both problems need to be addressed to prolong the life span of these magnets. [ABSTRACT FROM AUTHOR]

Published

1999

10. Sectional dentures revisited

Author

Karir, N, primary, Hindocha, V, additional, Walmsley, AD, additional, and Attrill, D, additional

Published

2012

11. Are We Abusing our Alginate Impressions? An Audit

Author

Patel, D, primary, Perryer, DG, additional, and Walmsley, AD, additional

Published

2007

12. Book Review

Author

Walmsley, AD, primary

Published

2007

13. Manual versus powered toothbrushing for oral health

Author

Heanue, M, primary, Deacon, SA, additional, Deery, C, additional, Robinson, PG, additional, Walmsley, AD, additional, Worthington, HV, additional, and Shaw, WC, additional

Published

2003

14. Computer-Assisted Learning

Author

Walmsley, Ad, primary and Pollard, Dj, additional

Published

1997

15. Podcasts--an adjunct to the teaching of dentistry.

Author

Walmsley AD, Lambe CS, Perryer DG, Hill KB, Walmsley, A D, Lambe, C S, Perryer, D G, and Hill, K B

Abstract

The aim of this study was to evaluate how clinical students reacted to the use of Podcasts for undergraduate teaching. The most popular way of listening to them was on a computer. Students scored highly the subject matter of the Podcasts and used them for learning around the subject, especially during examination time. Podcasts are a valuable vehicle for delivering learning materials to students: offering flexibility but in tune with students' love of downloading materials to use when they wish. [ABSTRACT FROM AUTHOR]

Published

2009

16. Advances in power driven pocket/root instrumentation.

Author

Walmsley AD, Lea SC, Landini G, and Moses AJ

Abstract

OBJECTIVES: The primary aim was: 'Does power-driven pocket/root instrumentation offer a clinical advantage over hand instrumentation'? Secondary aim was to update knowledge base of power-driven instrumentation post Tunkel et al. (2002). MATERIAL AND METHODS: A literature search of power-driven instruments (in vitro, in vivo and controlled clinical trials) was performed from April 2001 using similar criteria to Tunkel et al. (2002). Primary outcome was whether power-driven instruments offered an advantage over hand instrumentation; secondary outcomes were effect on root surface, effectiveness of new instrument designs, and role of biophysical effects such as cavitation. RESULTS: From a total of 41 studies, 14 studies involved comparison of power-driven devices with hand instrumentation for non-surgical therapy. These were subdivided into new designs of power instrumentation, full-mouth debridement and irrigation and patient acceptance. Use of power-driven instrumentation provides similar clinical outcomes compared with hand instrumentation. Difficulty of pooling studies continues to hinder the drawing of definitive conclusions. CONCLUSION: Newer designs of powered instruments have not shown any benefit when compared with other ultrasonic devices in non-surgical periodontal therapy. New in vitro research shows there is variation in the performance of different tip designs and generators, but its clinical relevance remains unknown. [ABSTRACT FROM AUTHOR]

Published

2008

17. The effect of wear on ultrasonic scaler tip displacement amplitude.

Author

Lea SC, Landini G, and Walmsley AD

Abstract

AIM: During clinical usage, scaler tips may become worn and reduced in length. It is unknown what effect wear has on the magnitude of scaler tip vibrations when they are utilized under typical clinical loads. The aim of this investigation was to assess the effect of simulated wear on ultrasonic scaler tip displacement amplitude, using a scanning laser vibrometer. MATERIALS AND METHODS: A Cavitron SPS (Dentsply) ultrasonic generator and three scaler insert designs (FSI-100, FSI-1000 and FSI-SLI-10S) were selected for the investigation. Tip vibration displacement amplitude was assessed unloaded and then contacting against tooth surfaces with loads of 0.5 and 1.0 N. Tips were then ground down by 1 mm and then 2 mm and scans were repeated. RESULTS: For all tips, load and length were found to be significant variables (p<0.0001). The scaler tips showed a fall in displacement amplitude with a reduction in tip length. However, all scaler tips showed variability in the amount oscillation that occurred. This was most pronounced with FSI-SLI-10S. CONCLUSIONS: This investigation demonstrated that tip wear could affect the performance of dental ultrasonic scaler inserts by reducing their vibration displacement amplitude. Clinicians should be aware of this variability, which may be significant enough to affect clinical procedures. [ABSTRACT FROM AUTHOR]

Published

2006

18. Thermal imaging of ultrasonic scaler tips during tooth instrumentation.

Author

Lea SC, Landini G, and Walmsley AD

Abstract

OBJECTIVES: During ultrasonic scaling procedures, contact of the scaler tip with the tooth surface will produce frictional heating. The aim of this study was to assess this heat generation using an Agema 900 thermal imaging system. MATERIALS AND METHODS: Both the Cavitron sustained performance system (SPS) with TFI-3 tip and the Mini Piezon with P-tip were tested. Handpieces were fixed with their sides facing the thermal camera and thermal image sequences or 'movies' created. Measurements were performed with tips under loads of 25, 50 and 100 g, at water flow rates of 10, 20 and 40 ml/min and low, medium and high generator power settings. A measurement point was superimposed on the resulting thermal images at the tip/tooth contact site and the temperature variation with time recorded. RESULTS: All combinations of instrumentation produced an increase in temperature. An increase in temperature was generally observed with increasing load (for given power/water), power setting (for given load/water) and a decrease in water flow rate (for given load/power). CONCLUSION: Heat generation is minimised by using low/medium power settings and light contact. Care must be taken to ensure adequate water is present at the site of instrumentation to prevent patient discomfort due to excessive heating. [ABSTRACT FROM AUTHOR]

Published

2004

19. Ultrasonic scaler tip performance under various load conditions.

Author

Lea SC, Landini G, and Walmsley AD

Abstract

OBJECTIVES: The aim of this investigation was to assess the effect of loading on ultrasonic scaler tip displacement amplitude, using a scanning laser vibrometer. MATERIAL AND METHODS: Four generators were selected for this investigation including: Cavitron Select (Dentsply), Cavitron SPS (Dentsply), Piezon Master 400 (EMS) and Mini Piezon (EMS). The insert designs used with these generators included the TFI-10 and TFI-3 (with the Dentsply generators) and P-tip (with the EMS generators). The insert tips were contacted against tooth surfaces with loads of 0.25, 0.5 and 1.0 N. The scanning laser vibrometer was then used to scan the vibrating scalers at various generator power settings. RESULTS: The tips generally showed an increase in displacement amplitude with increasing power setting, although this increase was often nonlinear. Displacement amplitudes of like tips were generally found to be significantly different from each other at all loads. For individual inserts, loading caused a significant difference in tip response from the unloaded situation and also between loads. CONCLUSIONS: This investigation has demonstrated that there is a high variability associated with dental ultrasonic scaler inserts. Clinicians and researchers should be aware of this variability as it may affect both clinical procedures and future research. [ABSTRACT FROM AUTHOR]

Published

2003

20. Displacement amplitude of ultrasonic scaler inserts.

Author

Lea SC, Landini G, and Walmsley AD

Abstract

OBJECTIVES: Scanning laser vibrometry is a noninvasive method of measuring the velocity, displacement amplitude and oscillation frequency of vibrating objects. The purpose of this study was to assess, using a scanning laser vibrometer (SLV), the performance of different designs of commercially available ultrasonic scaler generators by measuring the oscillatory characteristics of various scaler tips. METHODS: Four ultrasonic generators were tested (Cavitron SPS and Cavitron Select (Dentsply, York, PA, USA) and Piezon Master 400 and Mini Piezon (Electro-Medical Systems, Switzerland)) with various designs of scaler tip. The tips were positioned with their anterior surface perpendicular to the direction of the laser. A graduated scale, placed over the manufacturer's power dial, enabled incremental power setting selection. For each power setting, the laser beam from the SLV was scanned over the surface of the oscillating tip. RESULTS: The ranges of longitudinal displacement amplitudes (in micrometres) were as follows: Mini Piezon (P-tip): 12.90+/-1.44 to 44.03+/-7.80; Piezon Master 400 (P-tip): 16.02+/-2.66 to 35.85+/-5.29; Cavitron SPS (TFI-10 tip): 7.81+/-0.51 to 29.70+/-1.12; Cavitron Select (TFI-10 tip): 13.13+/-1.44 to 33.77+/-4.27; Cavitron SPS (TFI-3 tip): 5.50+/-0.46 to 31.35+/-3.62. CONCLUSIONS: This study shows that there are differences between commercially available generators and that tip movement varies between tips of the same style as well as between the generator and tip design. Users of ultrasonic scalers should be made aware of this inherent variability that may influence clinical procedures. [ABSTRACT FROM AUTHOR]

Published

2003

21. Ultrasonic debonding of composite-retained restorations

Author

Walmsley, AD, Jones, PA, Hullah, W, and Harrington, E

Published

1989

22. Investigation into patients' hearing following ultrasonic scaling

Author

Walmsley, AD, Hickson, FS, Laird, WR, and Williams, AR

Published

1987

23. Magnet retained overdentures using the Astra dental implant system

Author

Walmsley, AD, Brady, CL, Smith, PL, and Frame, JW

Published

1993

24. Pressures produced in vitro during intraligamentary anaesthesia

Author

Walmsley, AD, Lloyd, JM, and Harrington, E

Published

1989

25. Computer-Assisted Learning

Author

Walmsley, Ad and Pollard, Dj

Abstract

Clinical lecturers may embark upon the task of creating CAL material unaware of the effort required to produce the simplest of programs. This study aimed to measure the effort involved in such a task in order that those contemplating such development might make a judgement which is well informed. The study entailed a computer literate, yet non-programming clinical lecturer producing a ten-minute CAL program using three different authoring templates. A diary and time log were kept. The resulting pieces of software are discussed as well as the process by which they were created.

Published

1997

26. A comparison of the compensation for magnetostrictive core inductances in magnetic transducer systems

Author

Bartlett, P. A., Meydan, Turgut, Lea, S. C., Moses, Anthony John, Williams, P. I., Landini, G., Walmsley, AD, Bartlett, P. A., Meydan, Turgut, Lea, S. C., Moses, Anthony John, Williams, P. I., Landini, G., and Walmsley, AD

27. [Untitled]

Author

Walmsley Ad

Subjects

medicine.medical_specialty, Ultrasonic therapy, business.industry, Myofascial pain, Physical therapy, medicine, Oral Surgery, business

Published

1984

28. Birmingham Dental School--a centre for research

Author

Browne, RM and Walmsley, AD

Published

1988

29. Practical tips

Author

Walmsley, AD and Laird, WR

Published

1985

30. Web site of the month

Author

Walmsley, AD

Published

1998

31. From a ripple to a wave.

Author

Walmsley AD

Published

2024

32. Ultrasonic irrigation flows in root canals: effects of ultrasound power and file insertion depth.

Author

Koulogiannis A, Walmsley AD, Angeli P, and Balabani S

Subjects

Ultrasonography, Phantoms, Imaging, Biofilms, Dental Pulp Cavity, Ultrasonics

Abstract

Ultrasonic irrigation during root canal treatment can enhance biofilm disruption. The challenge is to improve the fluid flow so that the irrigant reaches areas inaccessible to hand instrumentation. The aim of this study is to experimentally investigate how the flow field and hydrodynamic forces induced by ultrasonic irrigation are influenced by the ultrasound power and file insertion depth. A root canal phantom was 3D printed and used as a mold for the fabrication of a PDMS channel. An ultrasonic instrument with a #15K-file provided the irrigation. The flow field was studied by means of Particle Image Velocimetry (PIV). The time averaged velocity and shear stress distributions were found to vary significantly with ultrasound power. Their maximum values increase sharply for low powers and up to a critical power level. At and above this setting, the flow pattern changes, from the high velocity and shear stress region confined in the vicinity of the tip, to one covering the whole root canal domain. Exceeding this threshold also induces a moderate increase in the maximum velocities and shear stresses. The insertion depth was found to have a smaller effect on the measured velocity and shear stresses. Due to the oscillating nature of the flow, instantaneous maximum velocities and shear stresses can reach much higher values than the mean, especially for high powers. Ultrasonic irrigation will benefit from using a higher power setting as this does produce greater shear stresses near the walls of the root canal leading to the potential for increased biofilm removal., (© 2024. The Author(s).)

Published

2024

33. Numerical investigation of cavitation in periodontal Pockets: Insights for enhancing cleaning efficiency.

Author

Yu Y, Smith WR, Wang Q, and Walmsley AD

Subjects

Humans, Periodontal Pocket, Vibration, Energy Transfer, Ultrasonics methods, Ultrasonic Therapy

Abstract

Ultrasonic dental scalers are indispensable instruments for efficient dental cleaning through the generation of cavitation. To gain valuable insights and enhance the cavitation cleaning effects, a numerical investigation is conducted using the finite element method via ABAQUS. Numerical results are compared with the experimental cavitation image for a scaler undergoes vibrations near a wall. We then analyse how the amplitude, frequency, and cross-sectional shape of the scaler affect cavitation generation. Numerical results indicate that cavitation is more pronounced for a scaler oscillating near a nearly rigid boundary than a soft boundary. It increases with the vibration amplitude because of higher ultrasonic energy transferring to the liquid and generating stronger pressure waves. The resonant frequency of the scaler coincides with the maximum cavitation and scaler tip amplitude. Reducing the dimension of the cross-section of the scaler in its oscillation direction increases both the scaler tip amplitude and the cavitation generated. This finding offers a potential design approach for enhancing the scaler cavitation and its cleaning effects. These insights provide practical guidance for optimising dental scaler settings, which can improve oral hygiene and prevent complications related to dental implants., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

34. Differing responses of osteogenic cell lines to β-glycerophosphate.

Author

Yevlashevskaya OS, Scheven BA, Walmsley AD, and Shelton RM

Subjects

Humans, Glycerophosphates pharmacology, Cell Line, Osteogenesis, Genes, cdc

Abstract

Ascorbic acid (Asc), dexamethasone (Dex) and β-glycerophosphate (β-Gly) are commonly used to promote osteogenic behaviour by osteoblasts in vitro. According to the literature, several osteosarcoma cells lines appear to respond differently to the latter with regards to proliferation kinetics and osteogenic gene transcription. Unsurprisingly, these differences lead to contrasting data between publications that necessitate preliminary studies to confirm the phenotype of the chosen osteosarcoma cell line in the presence of Asc, Dex and β-Gly. The present study exposed Saos-2 cells to different combinations of Asc, Dex and β-Gly for 14 days and compared the response with immortalised human mesenchymal stromal/stem cells (MSCs). Cell numbers, cytotoxicity, mineralised matrix deposition and cell proliferation were analysed to assess osteoblast-like behaviour in the presence of Asc, Dex and β-Gly. Additionally, gene expression of runt-related transcription factor 2 (RUNX2); osteocalcin (OCN); alkaline phosphatase (ALP); phosphate regulating endopeptidase homolog X-linked (PHEX); marker of proliferation MKI67 and proliferating cell nuclear antigen (PCNA) was performed every two days during the 14-day cultures. It was found that proliferation of Saos-2 cells was significantly decreased by the presence of β-Gly which contrasted with hMSCs where no change was observed. Furthermore, unlike hMSCs, Saos-2 cells demonstrated an upregulated expression of late osteoblastic markers, OCN and PHEX that suggested β-Gly could affect later stages of osteogenic differentiation. In summary, it is important to consider that β-Gly significantly affects key cell processes of Saos-2 when using it as an osteoblast-like cell model., (© 2023. Springer Nature Limited.)

Published

2023

35. Expert view: A. Damien Walmsley.

Author

Walmsley AD

Published

2022

36. Exploring the neurogenic differentiation of human dental pulp stem cells.

Author

Al-Maswary AA, O'Reilly M, Holmes AP, Walmsley AD, Cooper PR, and Scheven BA

Subjects

Humans, Dental Pulp metabolism, Cell Differentiation, Tretinoin pharmacology, Stem Cells, Cholinergic Agents, Cells, Cultured, Transcription Factors metabolism, Homeodomain Proteins metabolism, NAV1.7 Voltage-Gated Sodium Channel metabolism, Acetylcholinesterase metabolism, Neuroblastoma metabolism

Abstract

Human dental pulp stem cells (hDPSCs) have increasingly gained interest as a potential therapy for nerve regeneration in medicine and dentistry, however their neurogenic potential remains a matter of debate. This study aimed to characterize hDPSC neuronal differentiation in comparison with the human SH-SY5Y neuronal stem cell differentiation model. Both hDPSCs and SH-SY5Y could be differentiated to generate typical neuronal-like cells following sequential treatment with all-trans retinoic acid (ATRA) and brain-derived neurotrophic factor (BDNF), as evidenced by significant expression of neuronal proteins βIII-tubulin (TUBB3) and neurofilament medium (NF-M). Both cell types also expressed multiple neural gene markers including growth-associated protein 43 (GAP43), enolase 2/neuron-specific enolase (ENO2/NSE), synapsin I (SYN1), nestin (NES), and peripherin (PRPH), and exhibited measurable voltage-activated Na+ and K+ currents. In hDPSCs, upregulation of acetylcholinesterase (ACHE), choline O-acetyltransferase (CHAT), sodium channel alpha subunit 9 (SCN9A), POU class 4 homeobox 1 (POU4F1/BRN3A) along with a downregulation of motor neuron and pancreas homeobox 1 (MNX1) indicated that differentiation was more guided toward a cholinergic sensory neuronal lineage. Furthermore, the Extracellular signal-regulated kinase 1/2 (ERK1/2) inhibitor U0126 significantly impaired hDPSC neuronal differentiation and was associated with reduction of the ERK1/2 phosphorylation. In conclusion, this study demonstrates that extracellular signal-regulated kinase/Mitogen-activated protein kinase (ERK/MAPK) is necessary for sensory cholinergic neuronal differentiation of hDPSCs. hDPSC-derived cholinergic sensory neuronal-like cells represent a novel model and potential source for neuronal regeneration therapies., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Al-Maswary et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

37. Online videos: The hidden curriculum.

Author

Dias da Silva MA, Pereira AC, Vital S, Mariño R, Ghanim A, Skelton-Macedo MC, Kavadella A, Kakaboura A, Uribe SE, Johnson I, Dalessandri D, and Walmsley AD

Subjects

Brazil, Humans, Reproducibility of Results, Students, Curriculum, Education, Dental

Abstract

Introduction: Dental undergraduates will access the Internet searching for learning materials to complement their training; however, open access content is not generally recommended by dental schools. This study aimed to evaluate how dental students are using online video content., Materials and Methods: Students from eight Universities (Athens, Birmingham, Brescia, Cardiff, Melbourne, Paris, Sao Paulo and Valdivia) representing three continents were invited to complete a survey on their access and learning from online videos., Results: International students behave similarly when studying dental content online. Of 515 respondents, 94.6% use the Internet as a learning tool. It was observed that videos are not frequently recommended during didactic lectures (9.6%). But many students (79.9%) will use YouTube for their learning which includes clinical procedures. Students will check online content before performing procedures for the first time (74.8%), to understand what was explained in class (65.9%) or read in books (59.5%), to relearn clinical techniques (64.7%) and to visualise rare procedures (49.8%). More than half of the students do not fully trust the accuracy or the reliability of online content. This does not prevent students from watching and sharing dental videos with classmates (64.4%). The content watched is not shared with teachers (23.3%) even when it contradicts what was learnt in the school (38.2%)., Conclusion: This study concludes that students regularly integrate open access digital resources into learning portfolios but are hesitant to inform their teachers about their viewing habits. Students wish to receive critical skills on how to evaluate the material they encounter outside their traditional learning space., (© 2022 The Authors. European Journal of Dental Education published by John Wiley & Sons Ltd.)

Published

2022

38. Traditional Multiwell Plates and Petri Dishes Limit the Evaluation of the Effects of Ultrasound on Cells In Vitro.

Author

Gupta D, Savva J, Li X, Chandler JH, Shelton RM, Scheven BA, Mulvana H, Valdastri P, Lucas M, and Walmsley AD

Subjects

Transducers, Ultrasonography, Cell Culture Techniques, Ultrasonic Therapy methods

Abstract

Ultrasound accelerates healing in fractured bone; however, the mechanisms responsible are poorly understood. Experimental setups and ultrasound exposures vary or are not adequately characterized across studies, resulting in inter-study variation and difficulty in concluding biological effects. This study investigated experimental variability introduced through the cell culture platform used. Continuous wave ultrasound (45 kHz; 10, 25 or 75 mW/cm 2 , 5 min/d) was applied, using a Duoson device, to Saos-2 cells seeded in multiwell plates or Petri dishes. Pressure field and vibration quantification and finite-element modelling suggested formation of complex interference patterns, resulting in localized displacement and velocity gradients, more pronounced in multiwell plates. Cell experiments revealed lower metabolic activities in both culture platforms at higher ultrasound intensities and absence of mineralization in certain regions of multiwell plates but not in Petri dishes. Thus, the same transducer produced variable results in different cell culture platforms. Analysis on Petri dishes further revealed that higher intensities reduced vinculin expression and distorted cell morphology, while causing mitochondrial and endoplasmic reticulum damage and accumulation of cells in sub-G1 phase, leading to cell death. More defined experimental setups and reproducible ultrasound exposure systems are required to study the real effect of ultrasound on cells for development of effective ultrasound-based therapies not just limited to bone repair and regeneration., Competing Interests: Conflict of interest disclosure The authors report no potential competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

39. Positive media.

Author

Walmsley AD

Published

2022

40. Using quizzes to provide an effective and more enjoyable dental education: A pilot study.

Author

Pereira AC, Dias da Silva MA, Patel US, Tanday A, Hill KB, and Walmsley AD

Subjects

Child, Educational Measurement methods, Humans, Pilot Projects, Students, United Kingdom, Education, Dental methods, Learning

Abstract

Introduction: Increasingly, dental education is using digital strategies to deliver teaching; however, not all of these learning materials are engaging and effective., Aim: To evaluate the perception and knowledge retention of undergraduate dental students after using two different digital learning tools: quizzes and PDF., Methods: Thirty-three students from a Dental School in the United Kingdom took part in the research. They received learning material derived from the Prosthodontic (Kennedy classification) or Paediatric dentistry content (Tooth classification). The same content was delivered in two different formats: quiz game (n = 17) and PDF file (n = 16). The PDF file had ten images and their classifications, whilst the quiz had the same images with a question about the classification, along with alternatives (single best answer)., Results: All students gave similar performances on the knowledge assessment; however, their perception about the learning material differed. Students using quizzes (88%) agreed that they were fun and an interesting way of learning, while only 37.5% had this opinion about PDF material (p = .002). When using quizzes, learners were more motivated and confident. They would frequently recommend quizzes to other colleagues; however, the use of PDF was not suggested as frequently (p = .039). As a learning strategy, 100% of the students using quizzes wanted more of the same to study other dental subjects. This was not the case with the PDF format (p = .005)., Conclusion: Despite quizzes and PDF files resulting in a similar understanding of dental subjects, learners prefer quizzes to supplement their studies. Educators should consider using this interactive digital tool to engage students, instead of PDF files., (© 2021 John Wiley & Sons A/S . Published by John Wiley & Sons Ltd.)

Published

2022

41. A critical review of qualitative research publications in dental implants from 2006 to 2020.

Author

Jayachandran S, Hill K, and Walmsley AD

Subjects

Humans, Qualitative Research, Dental Implants, Tooth Loss

Abstract

Objectives: This critical review is aimed to investigate the current status of qualitative research in dental implant research and to explore the quality of available information., Material and Methods: A systematic search was done on the journal databases to identify dental implant research articles that used qualitative methodology during 2006 and 2020. The resulting articles were appraised against the checklist offered by the Critical Appraisal Skills programme (CASP) tool. Also, the theories evolved from the research were reviewed to understand the value of this methodology in dental implant research., Results: Twenty-five (25) articles out of the 8,421 original results were identified as using qualitative methodology. The researchers have sought to identify the views of patients about tooth loss, dental implants, and the information they receive from dental professionals, and views of the dentists about dental implant practice. The review found that there were few inconsistencies in the quality of such research especially the qualitative data analysis., Conclusions: The quantity of qualitative research in dental implants remains low; however, the quality has improved in the past two decades. Despite these improvements, there is still a lack of research in understanding both patients' and dentists' views on dental implant procedures and management., (© 2021 The Authors. Clinical Oral Implants Research published by John Wiley & Sons Ltd.)

Published

2021

42. Biofilm viability checker: An open-source tool for automated biofilm viability analysis from confocal microscopy images.

Author

Mountcastle SE, Vyas N, Villapun VM, Cox SC, Jabbari S, Sammons RL, Shelton RM, Walmsley AD, and Kuehne SA

Subjects

Bacteria growth & development, Bacterial Physiological Phenomena, Humans, ROC Curve, Biofilms growth & development, Image Processing, Computer-Assisted methods, Microscopy, Confocal methods, Phenotype, Software

Abstract

Quantifying biofilm formation on surfaces is challenging because traditional microbiological methods, such as total colony-forming units (CFUs), often rely on manual counting. These are laborious, resource intensive techniques, more susceptible to human error. Confocal laser scanning microscopy (CLSM) is a high-resolution technique that allows 3D visualisation of biofilm architecture. In combination with a live/dead stain, it can be used to quantify biofilm viability on both transparent and opaque surfaces. However, there is little consensus on the appropriate methodology to apply in confocal micrograph processing. In this study, we report the development of an image analysis approach to repeatably quantify biofilm viability and surface coverage. We also demonstrate its use for a range of bacterial species and translational applications. This protocol has been created with ease of use and accessibility in mind, to enable researchers who do not specialise in computational techniques to be confident in applying these methods to analyse biofilm micrographs. Furthermore, the simplicity of the method enables the user to adapt it for their bespoke needs. Validation experiments demonstrate the automated analysis is robust and accurate across a range of bacterial species and an improvement on traditional microbiological analysis. Furthermore, application to translational case studies show the automated method is a reliable measurement of biomass and cell viability. This approach will ensure image analysis is an accessible option for those in the microbiology and biomaterials field, improve current detection approaches and ultimately support the development of novel strategies for preventing biofilm formation by ensuring comparability across studies.

Published

2021

43. Improved biofilm removal using cavitation from a dental ultrasonic scaler vibrating in carbonated water.

Author

Vyas N, Wang QX, and Walmsley AD

Subjects

Biofilms, Carbonated Water, Dental Instruments, Sonication methods

Abstract

The use of cavitation for improving biofilm cleaning is of great interest. There is no system at present that removes the biofilm from medical implants effectively and specifically from dental implants. Cavitation generated by a vibrating dental ultrasonic scaler tip can clean biomaterials such as dental implants. However, the cleaning process must be significantly accelerated for clinical applications. In this study we investigated whether the cavitation could be increased, by operating the scaler in carbonated water with different CO 2 concentrations. The cavitation around an ultrasonic scaler tip was recorded with high speed imaging. Image analysis was used to calculate the area of cavitation. Bacterial biofilm was grown on surfaces and its removal was imaged with a high speed camera using the ultrasonic scaler in still and carbonated water. Cavitation increases significantly with increasing carbonation. Cavitation also started earlier around the tips when they were in carbonated water compared to non-carbonated water. Significantly more biofilm was removed when the scaler was operated in carbonated water. Our results suggest that using carbonated water could significantly increase and accelerate cavitation around ultrasonic scalers in a clinical situation and thus improve biofilm removal from dental implants and other biomaterials., (Crown Copyright © 2020. Published by Elsevier B.V. All rights reserved.)

Published

2021

44. How does ultrasonic cavitation remove dental bacterial biofilm?

Author

Vyas N, Wang QX, Manmi KA, Sammons RL, Kuehne SA, and Walmsley AD

Subjects

Microbubbles, Streptococcus growth & development, Surface Properties, Bacteria isolation & purification, Biofilms, Sonication, Tooth microbiology

Abstract

Bacterial biofilm accumulation is problematic in many areas, leading to biofouling in the marine environment and the food industry, and infections in healthcare. Physical disruption of biofilms has become an important area of research. In dentistry, biofilm removal is essential to maintain health. The aim of this study is to observe biofilm disruption due to cavitation generated by a dental ultrasonic scaler (P5XS, Acteon) using a high speed camera and determine how this is achieved. Streptococcus sanguinis biofilm was grown on Thermanox™ coverslips (Nunc, USA) for 4 days. After fixing and staining with crystal violet, biofilm removal was imaged using a high speed camera (AX200, Photron). An ultrasonic scaler tip (tip 10P) was held 2 mm away from the biofilm and operated for 2 s. Bubble oscillations were observed from high speed image sequences and image analysis was used to track bubble motion and calculate changes in bubble radius and velocity on the surface. The results demonstrate that most of the biofilm disruption occurs through cavitation bubbles contacting the surface within 2 s, whether individually or in cavitation clouds. Cleaning occurs through shape oscillating microbubbles on the surface as well as through fluid flow., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2020. Published by Elsevier B.V. All rights reserved.)

Published

2020

45. Imaging and Quantification of the Area of Fast-Moving Microbubbles Using a High-Speed Camera and Image Analysis.

Author

Vyas N, Mahmud M, Wang QX, and Walmsley AD

Subjects

Dental Scaling instrumentation, Motion, Sonication instrumentation, Image Processing, Computer-Assisted, Microbubbles, Photography methods

Abstract

An experimental and image analysis technique is presented for imaging cavitation bubbles and calculating their area. The high-speed imaging experimental technique and image analysis protocol presented here can also be applied for imaging microscopic bubbles in other fields of research; therefore, it has a wide range of applications. We apply this to image cavitation around dental ultrasonic scalers. It is important to image cavitation to characterize it and to understand how it can be exploited for various applications. Cavitation occurring around dental ultrasonic scalers can be used as a novel method of dental plaque removal, which would be more effective and cause less damage than current periodontal therapy techniques. We present a method for imaging the cavitation bubble clouds occurring around dental ultrasonic scaler tips using a high-speed camera and a zoom lens. We also calculate the area of cavitation using machine learning image analysis. Open source software is used for image analysis. The image analysis presented is easy to replicate, does not require programming experience, and can be modified easily to suit the application of the user.

Published

2020

46. Challenges in dental implant provision and its management in general dental practice.

Author

Jayachandran S, Walmsley AD, and Hill K

Subjects

Attitude of Health Personnel, Dentists, General Practice, Dental, Humans, Professional Role, Surveys and Questionnaires, Dental Implants, Practice Patterns, Dentists'

Abstract

Objectives: Dental implants have become a well-publicised treatment modality in dentistry. Implants are generally placed in the private sector by dentists who have undertaken further learning. The continued maintenance of implants falls within the duty of care for the general dental practitioner. The objective of this qualitative study is to investigate the current status of dental implants in general dental practice, and to explore the dentists view on dental implant education at both undergraduate and postgraduate level., Methods: In-depth interviews as a qualitative methodology was used in the study. The participants were recruited through theoretical sampling guided by saturation of information. Based on this, 22 general dental practitioners practicing in the UK were interviewed. Transcribed interview data were coded with NVIVO software and then analysed using a thematic framework analysis method., Results: General dentists from different educational backgrounds, experience levels participated in the study. They highlighted that the guidelines and protocols when dealing with implants were unclear and expressed their unwillingness to treat patients who had their specialised dental treatment performed elsewhere., Conclusion: Expensive dental implant treatment is not being followed up by the general dental practitioner due to a wide range of barriers. Unclear care paths will lead to a likely increase in problems following implant placement., Clinical Significance: General Dentists' views of dental implants in general practice and their expectations from education providers are explored and show the need for improved education., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

47. The effect of standoff distance and surface roughness on biofilm disruption using cavitation.

Author

Vyas N, Sammons RL, Kuehne SA, Johansson C, Stenport V, Wang QX, and Walmsley AD

Subjects

Dental Implants microbiology, Image Processing, Computer-Assisted, Surface Properties, Time Factors, Ultrasonics, Biofilms

Abstract

Effective biofilm removal from surfaces in the mouth is a clinical challenge. Cavitation bubbles generated around a dental ultrasonic scaler are being investigated as a method to remove biofilms effectively. It is not known how parameters such as surface roughness and instrument distance from biofilm affect the removal. We grew Strepotococcus sanguinis biofilms on coverslips and titanium discs with varying surface roughness (between 0.02-3.15 μm). Experimental studies were carried out for the biofilm removal using high speed imaging and image analysis to calculate the area of biofilm removed at varying ultrasonic scaler standoff distances from the biofilm. We found that surface roughness up to 2 μm does not adversely affect biofilm removal but a surface roughness of 3 μm caused less biofilm removal. The standoff distance also has different effects depending on the surface roughness but overall a distance of 1 mm is just as effective as a distance of 0.5 mm. The results show significant biofilm removal due to an ultrasonic scaler tip operating for only 2s versus 15-60s in previous studies. The technique developed for high speed imaging and image analysis of biofilm removal can be used to investigate physical biofilm disruption from biomaterial surfaces in other fields., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

48. High speed imaging of biofilm removal from a dental implant model using ultrasonic cavitation.

Author

Vyas N, Grewal M, Kuehne SA, Sammons RL, and Walmsley AD

Subjects

Biofilms, Dental Scaling, Microscopy, Electron, Scanning, Surface Properties, Dental Implants, Ultrasonics

Abstract

Objectives: Current instruments cannot clean in between dental implant threads and effectively remove biofilm from the rough implant surface without damaging it. Cavitation bubbles have the potential to disrupt biofilms. The aim of this study was to see how biofilms can be disrupted using non-contact cavitation from an ultrasonic scaler, imaged inside a restricted implant pocket model using high speed imaging., Methods: Streptococcus sanguinis biofilm was grown for 7 days on dental implants. The implants were placed inside a custom made restricted pocket model and immersed inside a water tank. An ultrasonic scaler tip was placed 0.5mm away from the implant surface and operated at medium power or high power for 2s. The biofilm removal process was imaged using a high speed camera operating at 500 fps. Image analysis was used to calculate the amount of biofilm removed from the high speed images. Scanning electron microscopy was done to visualize the implant surface after cleaning., Results: Cavitation was able to remove biofilm from dental implants. More biofilm was removed at high power. Scanning electron microscopy showed that the implant surface was clean at the points where the cavitation was most intense. High speed imaging showed biofilm removal underneath implant threads, in areas next to the ultrasonic scaler tip., Significance: A high speed imaging protocol has been developed to visualize and quantify biofilm removal from dental implants in vitro. Cavitation bubbles from dental ultrasonic scalers are able to successfully disrupt biofilm in between implant threads., (Crown Copyright © 2020. Published by Elsevier Inc. All rights reserved.)

Published

2020

49. Rebooting dentistry.

Author

Walmsley AD

Subjects

Dentistry

Published

2020

50. Numerical investigation of cavitation generated by an ultrasonic dental scaler tip vibrating in a compressible liquid.

Author

Manmi KMA, Wu WB, Vyas N, Smith WR, Wang QX, and Walmsley AD

Abstract

Bacterial biofilm accumulation around dental implants is a significant problem leading to peri-implant diseases and implant failure. Cavitation occurring in the cooling water around ultrasonic scaler tips can be used as a novel solution to remove debris without any surface damage. However, current clinically available instruments provide insufficient cavitation around the activated tip surface. To solve this problem a critical understanding of the vibro-acoustic behaviour of the scaler tip and the associated cavitation dynamics is necessary. In this research, we carried out a numerical study for an ultrasound dental scaler with a curved shape tip vibrating in water, using ABAQUS based on the finite element method. We simulated the three-dimensional, nonlinear and transient interaction between the vibration and deformation of the scaler tip, the water flow around the scaler and the cavitation formation and dynamics. The numerical model was well validated with the experiments and there was excellent agreement for displacement at the free end of the scaler. A systematic parametric study has been carried out for the cavitation volume around the scaler tip in terms of the frequency, amplitude and power of the tip vibration. The numerical results indicate that the amount of cavitation around the scaler tip increases with the frequency and amplitude of the vibration. However, if the frequency is far from the natural frequency, the cavitation volume around the free end decreases due to reduced free end vibration amplitude., (Crown Copyright © 2020. Published by Elsevier B.V. All rights reserved.)

Published

2020