Background: Denture bearing tissue condition may be highly affected by stress applied from the occlusal force during function

of mastication therefore the need for denture soft lining material application is necessary and testing the bond strength of this

material to acrylic denture base is of some point of interest and need to be improved. The aim of the study is to test the shear

bond strength of soft lining materials to the denture base after surface modifications and using different denture base materials.

 Materials and Methods: 120 samples included in the study to test the shear bond strength, sample grouped according to surface

treatment of acrylic resin (Control without surface treatment, monomer surface treatment, Nd-Yag laser surface treatment (10 Hz

and 20 Watt) and Nd-Yag laser surface treatment (10 Hz and 40 Watt)) with different denture base materials used (High impact

acrylic, Heat cured acrylic and light cured acrylic), the shear bond strength test was made by using universal testing machine with

cross head speed 40 mm/ min the force required for soft lining material complete separation from the acrylic resin materials calculated.

Statistical analysis made by SPSS software analysis using ANOVA Table with LSD multiple Comparison.

 Results: the highest value of shear bond strength found in group with high impact acrylic and 2nd dose of laser treatment applied,

while the lowest one found In a group of light cured acrylic when 1st dose of laser treatment used. the comparison among groups

made by using ANOVA Table with LSD which revealed that there was a highly significant difference between all groups with different

surface treatments except heat cured and light cured groups. A highly significant difference also found between 2nd dose of

laser treatment and control, monomer and 1st dose of laser surface treatment when different materials used.

 Soft lining materials, denture base, Laser, Monomer. High impact acrylic, light cured acrylic.

2nd dose of laser surface treatment when 10 Hz and 40 Watt of Nd-Yag Laser applied Show the highest value of shear

bond strength in high impact acrylic group, while the lowest value was recorded in light cured acrylic with 1st does laser treatment.

Harrison A. Temporary soft lining material. British Dent J

; 151:419-422.

Thomas J, Emmer Jr, Emmer TJ, et al. Bond strength of

permanent soft denture liners bonded to the denture base. J

Prosth Dent 1995;74:595-601.

Abdulsahib AJ. Evaluation of the tensile bond strengths of

heat cure acrylic and valplast with silicone self cure soft

liner. J Bagh College Dentistry 2012; 24(2): 5-9.

Roula W, Noor F, Hussam M. Effect of surface treatment on

tensile bond strength between soft liner and acrylic denture

base and the effect of Peppsi solution on this bond with and

without surface treatment. J Bagh College Dentistry 2011;

(2): 17-21.

Gopal KV, Josyula B, Reddy NR, et al. Comparison and

evaluation of tensile bond strength of two soft liners to the

denture base resin with different surface texture: An in vitro

study. J NTR Univ Health Sci 2014; 3(2): 102-106.

Hristov I, Pavlov B, Ivanova D, et al. A comparative study

on the bonding strength between the denture base and the

relining materials. J of IMAB 2006;12(2):28-29.

Akin H, Tugut F, Mutaf B, et al. Investigation of bonding

properties of denture bases to silicone-based soft denture

liner immersed in isobutyl methacrylate and 2-hydroxyethyl

methacrylate. J Adv Prosthodont 2014;6:121-5.

Misuriya A, Gupta M. A comparative evaluation of shear

bond strength of the fifth‑generation bonding agent treated

with neodymium‑doped yttrium aluminum garnet laser

before and after polymerization: An in vitro study .Journal

of Dental Lasers 2014 ;8(2):40-43.

Viraparia P, White JM, Vaderhobli RM. In: CO2 Laser -

Optimisation and Application, (D.C. Dumitras, editor)

InTech, Rijeka (Croatia)-New York-Shanghai (2012)

Use of Lasers in Dentistry. AAE Position Statement on Use

Lasers in Dentistry 2012 www.aae.org/guidelines.

A Brief History of Lasers. kigre.com/files/historylasers.pdf

, p1-8.

Malkoç MA, Demir N, Ögreten AT, et al. Effect of new laser

type on shear bond strength of acrylic teeth to denture base.

J Res Dent 2015;3(1):26-30.

Al- Azzawi RW. Evaluation of Some Properties of Three

Types of Denture Reline Materials with Miconazole

(Antifungal agent) Preparation. A thesis College of

Dentistry at the University of Baghdad .2007

Barbosa DB, Monterio DR, Barao VA, et al. Effect of

monomer treatment and polymerization methods on the

bond strength of resin teeth to denture base material. J

Gerodontology 2009; 26(3):225-31.

Hatim NA, Hassan RH. Bond strength of different artificial

tooth manufacturing to microwave cured acrylic denture

base. AL-Rafidain Dent J 2010;10(1):8-16

Rasheed SK. The Effect of Er:YAG laser surface treatment

on shear bond strength and some mechanical properties

of heat cure acrylic denture base material bonded to chair

side soft lining material. A thesis College of Dentistry,

University of Baghdad 2014.

Yousif AA. The effect of disinfection, tray perforation and

adhesive usage on the tensile and shear bond strength

using two different elastomeric impression materials,

(comparative study). A thesis college of dentistry,

University of Baghdad, 2006.

Salloum AM. Shear bond strength of three silicone lining

materials bonded to heat-cured denture resin. King Saud

University Journal of Dental Sciences 2013; 4: 17–20

Astm. Specification ,D-638m, 1986.

Dootz ER, Koran A. and Craig RG. Physical property

comparison of 11 soft denture lining materials as a function

of accelerated aging. J Prosth Dent 1993;69:114-119.

Kulkarni RS, Parkhedkar R. The effect of denture base

surface pretreatments on bond strengths of two long term

resilient liners. J Adv Prosth 2011;3:16-19.

Fowler JA. A comparison of bonding strength characteristics

between a silicone rubber, Silastic 390, and various denture

base resins. in: MScD thesis. University of Texas, ; 1968.

Cited in Al-Athel MS, Jagger RG, Jerolimov V. Bone

strength of resilient lining materials to various denture base

resins. Int J Prosthodont 1996;9:167-70.

Cantor R, Webber RL, Stroud, L, Ryge, G. Methods for

evaluating prosthetic facial materials. J Prosthet Dent.

;21:324–332. Cited in Al-Athel MS, Jagger RG,

Jerolimov V. Bone strength of resilient lining materials to

various denture base resins. Int J Prosthodont 1996;9:167-

Chaladek G, Zmudzki J, Kasperski J. Long- term soft

denture lining materials. Materials 2014;7:5816-5842.

Shihab RA., Hussein BM. Effect of certain chemical surface

treatments on repair bond strength of some denture base

materials. J Bagh College Dentistry 2014; 26(1): 53-8.

Jacobsen NL, Mitchell DL, Johnson DL, Holt RA. Lased

and sandblasted denture base surface preparations affecting

resilient liner bonding. J Prosthet Dent 1997;78:153-8.

Sarac D, Sarac YS, Basoglu T, et al. The evaluation of

microleakage and bond strength of a silicone-based

resilient liner following denture base surface pretreatment.

J Prosthet Dent 2006;95:143-51.

Korkmaz FM, Bagis B, Ozcan M, et al. Peel strength of

denture liner to PMMA and polyamide: laser versus airabrasion.

J Adv Prosthodont. 2013; 5: 287–295.

Sugioka K, Meander M, Pique A. Laser Precision

Microfabrication, Springer Series in Materials Science 135,

DOI 10.1007/978-3-642-10523-4-4, c Springer-Verlag

Berlin Heidelberg 2010:100.

Suke E, Scharf T, Scharf P, et al. Variation of the mechanical

properties of pulsed laser deposited PMMA films during

annealing. Applied Phys. A 2004;97:1295-1297.

Bragaglia LE, Maykot LH, Calvo MC. The role of surface

treatments on the bond between acrylic denture base and

teeth. Braz Dent J 2009;20(2): 156-161.

Sakaguchi RL, Powers JM. Restorative dental materials.

Thirteenth edition 2012:192.

Memarian M, Shayestehmajd M. The effect of chemical and

mechanical treatment of the denture base resin surface on

the shear bond strength of denture repairs. Rev Clín Pesq

Odontol 2009 ;5(1):11-17

Al-Noori AK, Al-Kateb HM. Evaluation of microleakage of

soft liners to highly impact acrylic resin. Al-Rafidain Dent

J2012; 12(2):378-385.