A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures

R. G. Macedo; J. P. Robinson; B. Verhaagen; A. D. Walmsley; M. Versluis; P. R. Cooper; L. W. M. van der  Sluis

doi:10.1111/iej.12246

A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures

R. G. Macedo^*
, J. P. Robinson
, B. Verhaagen
, A. D. Walmsley
, M. Versluis
, P. R. Cooper
, L. W. M. van der Sluis

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

41 Citations (Scopus)

Abstract

AimTo introduce and characterize a reproducible hydrogel as a suitable biofilm mimic in endodontic research. To monitor and visualize the removal of hydrogel from a simulated lateral canal and isthmus for the following: I) Ultrasonic-Activated Irrigation (UAI) with water, ii) UAI with NaOCl and iii) NaOCl without UAI.

MethodologyA rheometer was used to characterize the viscoelastic properties and cohesive strength of the hydrogel for suitability as a biofilm mimic. The removal rate of the hydrogel from a simulated lateral canal or isthmus was measured by high-speed imaging operating at frame rates from 50 to 30000fps.

ResultsThe hydrogel demonstrated viscoelastic behaviour with mechanical properties comparable to real biofilms. UAI enhanced the cleaning effect of NaOCl in isthmi (P

ConclusionsThe biofilm-mimicking hydrogel is reproducible, homogenous and can be easily applied and modified. Visualization of its removal from lateral canal anatomy provides insights into the cleaning mechanisms of UAI for a biofilm-like material. Initial results showed that UAI improves hydrogel removal from the accessory canal anatomy, but the creation of stable bubbles on the hydrogel-liquid interface may reduce the cleaning rate.

Original language	English
Pages (from-to)	1040-1051
Number of pages	12
Journal	International Endodontic Journal
Volume	47
Issue number	11
DOIs	https://doi.org/10.1111/iej.12246
Publication status	Published - Nov-2014

Keywords

biofilm
hydrogel
isthmus
lateral canals
NaOCl
ultrasounds
COMPUTED-TOMOGRAPHY
MANDIBULAR MOLARS
INFECTION
GEOMETRY

Access to Document

10.1111/iej.12246

Handle.net

Persistent link

Embargoed Document

A novel methodology providing insights into removal of biofilm-mimicking hydrogel
Final publisher's version, 1.16 MB
Request copy

Cite this

Macedo, R. G., Robinson, J. P., Verhaagen, B., Walmsley, A. D., Versluis, M., Cooper, P. R., & van der Sluis, L. W. M. (2014). A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures. International Endodontic Journal, 47(11), 1040-1051. https://doi.org/10.1111/iej.12246

@article{d916224a337341b5a3790e18fadd6278,

title = "A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures",

abstract = "AimTo introduce and characterize a reproducible hydrogel as a suitable biofilm mimic in endodontic research. To monitor and visualize the removal of hydrogel from a simulated lateral canal and isthmus for the following: I) Ultrasonic-Activated Irrigation (UAI) with water, ii) UAI with NaOCl and iii) NaOCl without UAI.MethodologyA rheometer was used to characterize the viscoelastic properties and cohesive strength of the hydrogel for suitability as a biofilm mimic. The removal rate of the hydrogel from a simulated lateral canal or isthmus was measured by high-speed imaging operating at frame rates from 50 to 30000fps.ResultsThe hydrogel demonstrated viscoelastic behaviour with mechanical properties comparable to real biofilms. UAI enhanced the cleaning effect of NaOCl in isthmi (PConclusionsThe biofilm-mimicking hydrogel is reproducible, homogenous and can be easily applied and modified. Visualization of its removal from lateral canal anatomy provides insights into the cleaning mechanisms of UAI for a biofilm-like material. Initial results showed that UAI improves hydrogel removal from the accessory canal anatomy, but the creation of stable bubbles on the hydrogel-liquid interface may reduce the cleaning rate.",

keywords = "biofilm, hydrogel, isthmus, lateral canals, NaOCl, ultrasounds, COMPUTED-TOMOGRAPHY, MANDIBULAR MOLARS, INFECTION, GEOMETRY",

author = "Macedo, \{R. G.\} and Robinson, \{J. P.\} and B. Verhaagen and Walmsley, \{A. D.\} and M. Versluis and Cooper, \{P. R.\} and \{van der Sluis\}, \{L. W. M.\}",

year = "2014",

month = nov,

doi = "10.1111/iej.12246",

language = "English",

volume = "47",

pages = "1040--1051",

journal = "International Endodontic Journal",

issn = "0143-2885",

publisher = "Wiley",

number = "11",

}

Macedo, RG, Robinson, JP, Verhaagen, B, Walmsley, AD, Versluis, M, Cooper, PR & van der Sluis, LWM 2014, 'A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures', International Endodontic Journal, vol. 47, no. 11, pp. 1040-1051. https://doi.org/10.1111/iej.12246

A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures. / Macedo, R. G.; Robinson, J. P.; Verhaagen, B. et al.
In: International Endodontic Journal, Vol. 47, No. 11, 11.2014, p. 1040-1051.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures

AU - Macedo, R. G.

AU - Robinson, J. P.

AU - Verhaagen, B.

AU - Walmsley, A. D.

AU - Versluis, M.

AU - Cooper, P. R.

AU - van der Sluis, L. W. M.

PY - 2014/11

Y1 - 2014/11

N2 - AimTo introduce and characterize a reproducible hydrogel as a suitable biofilm mimic in endodontic research. To monitor and visualize the removal of hydrogel from a simulated lateral canal and isthmus for the following: I) Ultrasonic-Activated Irrigation (UAI) with water, ii) UAI with NaOCl and iii) NaOCl without UAI.MethodologyA rheometer was used to characterize the viscoelastic properties and cohesive strength of the hydrogel for suitability as a biofilm mimic. The removal rate of the hydrogel from a simulated lateral canal or isthmus was measured by high-speed imaging operating at frame rates from 50 to 30000fps.ResultsThe hydrogel demonstrated viscoelastic behaviour with mechanical properties comparable to real biofilms. UAI enhanced the cleaning effect of NaOCl in isthmi (PConclusionsThe biofilm-mimicking hydrogel is reproducible, homogenous and can be easily applied and modified. Visualization of its removal from lateral canal anatomy provides insights into the cleaning mechanisms of UAI for a biofilm-like material. Initial results showed that UAI improves hydrogel removal from the accessory canal anatomy, but the creation of stable bubbles on the hydrogel-liquid interface may reduce the cleaning rate.

AB - AimTo introduce and characterize a reproducible hydrogel as a suitable biofilm mimic in endodontic research. To monitor and visualize the removal of hydrogel from a simulated lateral canal and isthmus for the following: I) Ultrasonic-Activated Irrigation (UAI) with water, ii) UAI with NaOCl and iii) NaOCl without UAI.MethodologyA rheometer was used to characterize the viscoelastic properties and cohesive strength of the hydrogel for suitability as a biofilm mimic. The removal rate of the hydrogel from a simulated lateral canal or isthmus was measured by high-speed imaging operating at frame rates from 50 to 30000fps.ResultsThe hydrogel demonstrated viscoelastic behaviour with mechanical properties comparable to real biofilms. UAI enhanced the cleaning effect of NaOCl in isthmi (PConclusionsThe biofilm-mimicking hydrogel is reproducible, homogenous and can be easily applied and modified. Visualization of its removal from lateral canal anatomy provides insights into the cleaning mechanisms of UAI for a biofilm-like material. Initial results showed that UAI improves hydrogel removal from the accessory canal anatomy, but the creation of stable bubbles on the hydrogel-liquid interface may reduce the cleaning rate.

KW - biofilm

KW - hydrogel

KW - isthmus

KW - lateral canals

KW - NaOCl

KW - ultrasounds

KW - COMPUTED-TOMOGRAPHY

KW - MANDIBULAR MOLARS

KW - INFECTION

KW - GEOMETRY

U2 - 10.1111/iej.12246

DO - 10.1111/iej.12246

M3 - Article

SN - 0143-2885

VL - 47

SP - 1040

EP - 1051

JO - International Endodontic Journal

JF - International Endodontic Journal

IS - 11

ER -

A novel methodology providing insights into removal of biofilm-mimicking hydrogel from lateral morphological features of the root canal during irrigation procedures

Abstract

Keywords

Access to Document

Handle.net

Embargoed Document

Fingerprint

Cite this