Pengaruh Sodium Hipoklorit 0,5% terhadap Pertumbuhan Klebsiella pneumoniae dan Surface Detail Cetakan Alginat Pasien Pasca Hemimaksilektomi
68
DAFTAR PUSTAKA
Aeran H, Jurel SK, Dhobhal A, 2010. Antimicrobial efficacy of spray disinfectants on
dental impressions. IJDS;2(6):10-13.
Almortadi N, Chadwick RG, 2010. Disinfection of dental impressions-compliance to
accepted standards. Br Dent J;209:607-11.
Alwahab Z, 2012. Comparison of antimicrobial activities and compressive strength of
alginate impression materials following disinfection procedure. JCDP;13(4):
431-5.
Amin WM, Al-Ali H, Al Tarawneh SK, Taha ST, Saleh MW, Ereifij A, 2009. The
effects of disinfectants on dimensional accuracy and surface quality of
impression materials and gypsum casts. J Clin Med Res;1(2):81-9.
Anusavice KJ, 2013. P illip’s science of dental materials. 12th ed. China: Elsevier,
171-6.
Al-Jabrah O, Al-Shumailan Y, Al-Rashdan M, 2007. Antimicrobial effect of 4
disinfectants on alginate, polyether, and polyvinyl siloxane impression
materials. Int J Prosthodont 20(3):299–307.
Badrian H, Ghasemi E, Khalighinejad N, Hosseini N, 2012. The effect of three
different disinfection materials on alginate impression by spray method. ISRN
Dentistry;1-5.
Bidra AS, Jacob RF, Taylor TD, 2012. Classification of maxillectomy defect: a
systematic review and criteria necessary for a universal description. J Prosthet
Dent;107:261-70.
British Dental Association, 2009. Advice sheet A12: infection control in dentistry.
London: British Dental Association, 1-21.
Budiharto, 2008. Metodologi penelitian kesehatan dengan contoh bidang ilmu
kesehatan gigi. Jakarta: EGC, 46.
Bustos J, Herrera R, Gonzalez U, Martínez A, Catalan A, 2010. Effect of inmersion
desinfection with 0,5% sodium hypochlorite and 2% glutaraldehyde on
alginate and silicone: microbiology and SEM study. Int J Odontostomat;
4(2):169-77.
Centers for Disease Control and Prevention, 2003. Guidelines for infection control in
dental health care settings. MMWR;52(17):1-76.
Universitas Sumatera Utara
69
Centers for Disease Control and Prevention, 2015. Klebsiella pneumoniae in
healthcare Settings. Diakses 20 Maret 2016.
http://www.cdc.gov/HAI/organisms/klebsiella/klebsiella.html
Correia-Sousa J, Tabaio A M, Silva A, Pereira T, Sampaio-Maia B, Vasconcelos M,
2013. The effect of water and sodium hypochlorite disinfection on alginate
impressions. Rev Port Estomatol Med Dent Cir Maxilofac;54:8-12.
Culhaoglu AK, Zaimoglu A, Dogan E, Ozkir SE, 2014. The influence of different
mixing methods on the dimensional stability and surface reproduction of two
different brands of irreversible hydrocolloids. EGJD;3(1):17-21.
Cunha TFS, et al, 2012. Risk factors for surgical site infection in cervico-facial
oncological surgery. J Cranio-Maxillo-Facial Surgery;40:443-8.
Daniel AY, Vinod B, 2015. Prosthetic rehabilitation of the dentate maxillectomy
patient from a delayed surgical to an interim obturator: a clinical case report.
CHRISMED J Health;2:68-71.
Egusa H, Watamoto T, Matsumoko T, 2008. Clinical evaluation of the efficacy of
removing microorganisms to desinfect patient-derived dental impressions. Int
J Prosthodont;21:531-8.
Fukuzaki S, 2006. Mechanisms of actions of sodium hypochlorite in cleaning and
disinfection processes. Biocontrol Sc;11(4):147-57.
Ghahramanloo A, Sadeghian A, Sohrabi K, Bidi A, 2009. A microbiologic
investigation following the disinfection of irreversible hydrocolloid materials
using the spray method. J Calif Dent Assoc;37(7):471-7.
Guiraldo RD, Borsato TT, Berger SB, Lopes MB, Gonini-Jr A, Sinhoreti MA, 2012.
Surface detail reproduction and dimensional accuracy of stone models:
influence of disinfectant solutions and alginate impression materials. Braz
Dent J;23(4):417-21.
Hanafia KA, 2003. Rancangan percobaan: teori dan aplikasi. Ed 3. Jakarta: PT Raja
Grafindo Persada, 9.
Haralur SB, Al-Dowah OS, Gana NS, Al-Hytham A, 2012. Effect of alginate
chemical disinfection on bacterial count over gypsum cast. J Adv
Prosthodont;4(2):84-8.
Universitas Sumatera Utara
70
Hiraguchi H, Kaketani M, Hirose H, Yoneyama T, 2012. Effect of immersion
disinfection of alginate impressions in sodium hypochloride solution on the
dimensional changes of stone models. Dent mater J;31(2):280-6.
Kotsiomiti E, 2008. Accuracy and stability of impression materials subjected to
chemical disinfection-a literature review. J Rehabilitation;35:291-9.
Kumar AR, 2013. Antimicrobial sensitivity pattern of Klebsiella pneumoniae isolated
from pus from tertiary care hospital and issue related to the rational selection
of antimicrobials. J Chem Pharm Res;5(11):326-31.
Lamont RJ, 2006. Oral microbiology and immunology. Washington: ASM Press,
3,423-30.
Lawlor MS, Hsu J, Rick PD, Miller VL, 2005. Identification of Klebsiella
pneumoniae virulence determinants using an intranasal infection model.
Molecular Microbiology;58(4),1054-73.
Manyahi J, 2012. Bacteriological spectrum of post operative wound infections and
their antibiogram in a tertiary hospital, dar es salaam, tanzania. Dissertation.
Muhimbilli University of Health and Allied Sciences;1-65.
Mc Cabe JF, Walls A W G, 2008. Applied dental materials. 9th ed. Singapore:
Blackwell Publishing:154-62.
Mc Daniel TF, Kramer RT, Im F, Snow D, 2013. Effect of mixing technique on
bubble formation in alginate impression material. General Dentistry;35-9.
Memarian M, Fazeli MR, Jamalifar H, Azimnejad A, 2007. Disinfection efficiency of
irreversible hydrocolloid impressions using different concentrations of sodium
hypochlorite: a pilot study. JCDP;8(4):1-8.
Nassar U, Aziz T, Flores-Mir C, 2011. Dimensional stability of irreversible
hydrocolloid impression materials as a function of pouring time: a systematic
review. J Prosthet Dent;106:126-33.
Ohara-Nemoto Y, Haraga H, Kimura S, Nemoto TK, 2008. Occurrence of
staphylococci in the oral cavities of healthy adults and nasal oral trafficking of
the bacteria. J Med Microbiol;57(Pt 1):95-9.
Omo JO, Sede MA, Enabulele JE, 2014. Prosthetic rehabilitation of patients with
maxillary defects in a nigerian tertiary hospital. Ann Med Health Sci
Res;4:630-3.
Universitas Sumatera Utara
71
Paczosa MK, Mecsas J, 2016. Klebsiella pneumoniae: going on the offense with a
strong defense. Microbiol Mol Biol Rev;80:629-61.
Power JM, Wataha JC, 2008. Dental materials: properties and manipulation. 9th ed. St
Louis: Mosby,172-80.
Rutala, 2008. Guideline for disinfection and sterilization in healthcare facilities. 1-15.
Sakaguchi RL, Powers JM, 2012. raig’s restorative dental materials. 13 th ed. United
States: Elsevier,277-86.
Samaranayake L, 2012. Essential microbiology for dentistry. 3 rd ed. St Louis:
Elsevier,309-28.
Schmitz RA, Klopprogge K, Grabbe R, 2002. Regulation of nitrogen fixation in
Klebsiella pneumoniae and Azotobacter vinelandii: NifL, transducing two
environmental signals to the nif transcriptional activator NifA. J Mol
Microbiol. Biotechnol,4(3):235-42.
Setiawan A, 2009. Rancangan acak lengkap. Diakses 29 Oktober 2015.
http://smartstat.wordpress.com
Siegel JD, Rhinehart E, Jackson M, Chiarello L, 2007. Guideline for isolation
precautions: preventing transmission of infectious agents in healthcare
settings.1-266.
Sikarwar AS, Batra HV, 2011. Identification of Klebsiella pneumoniae by capsular
polysaccharide polyclonal antibodies. Int J Chem Engineering and
Applications,2(2):130-4.
Sinavarat, 2014. Effects of disinfection procedures on surface quality of compound
impressions and the resultant gypsum casts. M Dent J;34:19-27.
Singh M, Bhushan A, Kumar N, Chand S, 2013. Obturator prosthesis for
hemimaxillectomy patients. Natl J Maxillofac Surg;4:117-20.
Suprono MS, Kattadiyil MT, Goodacre CJ, Winer MS, 2012. Effect of disinfection on
irreversible hydrocolloid and alternative impression materials and the resultant
gypsum casts. J Prosthet Dent;108:250-8.
Vojvodic D, Kranjcic, 2013. A two step (altered cast) impression technique in the
prosthetic rehabilitation of a patient after a maxillectomy: a clinical report. J
Prosthet Dent;110:228-31.
Universitas Sumatera Utara
72
Wieckiewicz W, et al, 2002. Study on the occurrence of microorganisms on the post
surgical maxillary prostheses with obturators and in the post surgical cavities
of maxilla. Bull Group Int Rech Sci Stomatl Odontol;45:29-33.
Zilinkas J, et al, 2014. Viability changes: microbiological analysis of dental casts.
Med Sci Monit;20:932-7.
Universitas Sumatera Utara
DAFTAR PUSTAKA
Aeran H, Jurel SK, Dhobhal A, 2010. Antimicrobial efficacy of spray disinfectants on
dental impressions. IJDS;2(6):10-13.
Almortadi N, Chadwick RG, 2010. Disinfection of dental impressions-compliance to
accepted standards. Br Dent J;209:607-11.
Alwahab Z, 2012. Comparison of antimicrobial activities and compressive strength of
alginate impression materials following disinfection procedure. JCDP;13(4):
431-5.
Amin WM, Al-Ali H, Al Tarawneh SK, Taha ST, Saleh MW, Ereifij A, 2009. The
effects of disinfectants on dimensional accuracy and surface quality of
impression materials and gypsum casts. J Clin Med Res;1(2):81-9.
Anusavice KJ, 2013. P illip’s science of dental materials. 12th ed. China: Elsevier,
171-6.
Al-Jabrah O, Al-Shumailan Y, Al-Rashdan M, 2007. Antimicrobial effect of 4
disinfectants on alginate, polyether, and polyvinyl siloxane impression
materials. Int J Prosthodont 20(3):299–307.
Badrian H, Ghasemi E, Khalighinejad N, Hosseini N, 2012. The effect of three
different disinfection materials on alginate impression by spray method. ISRN
Dentistry;1-5.
Bidra AS, Jacob RF, Taylor TD, 2012. Classification of maxillectomy defect: a
systematic review and criteria necessary for a universal description. J Prosthet
Dent;107:261-70.
British Dental Association, 2009. Advice sheet A12: infection control in dentistry.
London: British Dental Association, 1-21.
Budiharto, 2008. Metodologi penelitian kesehatan dengan contoh bidang ilmu
kesehatan gigi. Jakarta: EGC, 46.
Bustos J, Herrera R, Gonzalez U, Martínez A, Catalan A, 2010. Effect of inmersion
desinfection with 0,5% sodium hypochlorite and 2% glutaraldehyde on
alginate and silicone: microbiology and SEM study. Int J Odontostomat;
4(2):169-77.
Centers for Disease Control and Prevention, 2003. Guidelines for infection control in
dental health care settings. MMWR;52(17):1-76.
Universitas Sumatera Utara
69
Centers for Disease Control and Prevention, 2015. Klebsiella pneumoniae in
healthcare Settings. Diakses 20 Maret 2016.
http://www.cdc.gov/HAI/organisms/klebsiella/klebsiella.html
Correia-Sousa J, Tabaio A M, Silva A, Pereira T, Sampaio-Maia B, Vasconcelos M,
2013. The effect of water and sodium hypochlorite disinfection on alginate
impressions. Rev Port Estomatol Med Dent Cir Maxilofac;54:8-12.
Culhaoglu AK, Zaimoglu A, Dogan E, Ozkir SE, 2014. The influence of different
mixing methods on the dimensional stability and surface reproduction of two
different brands of irreversible hydrocolloids. EGJD;3(1):17-21.
Cunha TFS, et al, 2012. Risk factors for surgical site infection in cervico-facial
oncological surgery. J Cranio-Maxillo-Facial Surgery;40:443-8.
Daniel AY, Vinod B, 2015. Prosthetic rehabilitation of the dentate maxillectomy
patient from a delayed surgical to an interim obturator: a clinical case report.
CHRISMED J Health;2:68-71.
Egusa H, Watamoto T, Matsumoko T, 2008. Clinical evaluation of the efficacy of
removing microorganisms to desinfect patient-derived dental impressions. Int
J Prosthodont;21:531-8.
Fukuzaki S, 2006. Mechanisms of actions of sodium hypochlorite in cleaning and
disinfection processes. Biocontrol Sc;11(4):147-57.
Ghahramanloo A, Sadeghian A, Sohrabi K, Bidi A, 2009. A microbiologic
investigation following the disinfection of irreversible hydrocolloid materials
using the spray method. J Calif Dent Assoc;37(7):471-7.
Guiraldo RD, Borsato TT, Berger SB, Lopes MB, Gonini-Jr A, Sinhoreti MA, 2012.
Surface detail reproduction and dimensional accuracy of stone models:
influence of disinfectant solutions and alginate impression materials. Braz
Dent J;23(4):417-21.
Hanafia KA, 2003. Rancangan percobaan: teori dan aplikasi. Ed 3. Jakarta: PT Raja
Grafindo Persada, 9.
Haralur SB, Al-Dowah OS, Gana NS, Al-Hytham A, 2012. Effect of alginate
chemical disinfection on bacterial count over gypsum cast. J Adv
Prosthodont;4(2):84-8.
Universitas Sumatera Utara
70
Hiraguchi H, Kaketani M, Hirose H, Yoneyama T, 2012. Effect of immersion
disinfection of alginate impressions in sodium hypochloride solution on the
dimensional changes of stone models. Dent mater J;31(2):280-6.
Kotsiomiti E, 2008. Accuracy and stability of impression materials subjected to
chemical disinfection-a literature review. J Rehabilitation;35:291-9.
Kumar AR, 2013. Antimicrobial sensitivity pattern of Klebsiella pneumoniae isolated
from pus from tertiary care hospital and issue related to the rational selection
of antimicrobials. J Chem Pharm Res;5(11):326-31.
Lamont RJ, 2006. Oral microbiology and immunology. Washington: ASM Press,
3,423-30.
Lawlor MS, Hsu J, Rick PD, Miller VL, 2005. Identification of Klebsiella
pneumoniae virulence determinants using an intranasal infection model.
Molecular Microbiology;58(4),1054-73.
Manyahi J, 2012. Bacteriological spectrum of post operative wound infections and
their antibiogram in a tertiary hospital, dar es salaam, tanzania. Dissertation.
Muhimbilli University of Health and Allied Sciences;1-65.
Mc Cabe JF, Walls A W G, 2008. Applied dental materials. 9th ed. Singapore:
Blackwell Publishing:154-62.
Mc Daniel TF, Kramer RT, Im F, Snow D, 2013. Effect of mixing technique on
bubble formation in alginate impression material. General Dentistry;35-9.
Memarian M, Fazeli MR, Jamalifar H, Azimnejad A, 2007. Disinfection efficiency of
irreversible hydrocolloid impressions using different concentrations of sodium
hypochlorite: a pilot study. JCDP;8(4):1-8.
Nassar U, Aziz T, Flores-Mir C, 2011. Dimensional stability of irreversible
hydrocolloid impression materials as a function of pouring time: a systematic
review. J Prosthet Dent;106:126-33.
Ohara-Nemoto Y, Haraga H, Kimura S, Nemoto TK, 2008. Occurrence of
staphylococci in the oral cavities of healthy adults and nasal oral trafficking of
the bacteria. J Med Microbiol;57(Pt 1):95-9.
Omo JO, Sede MA, Enabulele JE, 2014. Prosthetic rehabilitation of patients with
maxillary defects in a nigerian tertiary hospital. Ann Med Health Sci
Res;4:630-3.
Universitas Sumatera Utara
71
Paczosa MK, Mecsas J, 2016. Klebsiella pneumoniae: going on the offense with a
strong defense. Microbiol Mol Biol Rev;80:629-61.
Power JM, Wataha JC, 2008. Dental materials: properties and manipulation. 9th ed. St
Louis: Mosby,172-80.
Rutala, 2008. Guideline for disinfection and sterilization in healthcare facilities. 1-15.
Sakaguchi RL, Powers JM, 2012. raig’s restorative dental materials. 13 th ed. United
States: Elsevier,277-86.
Samaranayake L, 2012. Essential microbiology for dentistry. 3 rd ed. St Louis:
Elsevier,309-28.
Schmitz RA, Klopprogge K, Grabbe R, 2002. Regulation of nitrogen fixation in
Klebsiella pneumoniae and Azotobacter vinelandii: NifL, transducing two
environmental signals to the nif transcriptional activator NifA. J Mol
Microbiol. Biotechnol,4(3):235-42.
Setiawan A, 2009. Rancangan acak lengkap. Diakses 29 Oktober 2015.
http://smartstat.wordpress.com
Siegel JD, Rhinehart E, Jackson M, Chiarello L, 2007. Guideline for isolation
precautions: preventing transmission of infectious agents in healthcare
settings.1-266.
Sikarwar AS, Batra HV, 2011. Identification of Klebsiella pneumoniae by capsular
polysaccharide polyclonal antibodies. Int J Chem Engineering and
Applications,2(2):130-4.
Sinavarat, 2014. Effects of disinfection procedures on surface quality of compound
impressions and the resultant gypsum casts. M Dent J;34:19-27.
Singh M, Bhushan A, Kumar N, Chand S, 2013. Obturator prosthesis for
hemimaxillectomy patients. Natl J Maxillofac Surg;4:117-20.
Suprono MS, Kattadiyil MT, Goodacre CJ, Winer MS, 2012. Effect of disinfection on
irreversible hydrocolloid and alternative impression materials and the resultant
gypsum casts. J Prosthet Dent;108:250-8.
Vojvodic D, Kranjcic, 2013. A two step (altered cast) impression technique in the
prosthetic rehabilitation of a patient after a maxillectomy: a clinical report. J
Prosthet Dent;110:228-31.
Universitas Sumatera Utara
72
Wieckiewicz W, et al, 2002. Study on the occurrence of microorganisms on the post
surgical maxillary prostheses with obturators and in the post surgical cavities
of maxilla. Bull Group Int Rech Sci Stomatl Odontol;45:29-33.
Zilinkas J, et al, 2014. Viability changes: microbiological analysis of dental casts.
Med Sci Monit;20:932-7.
Universitas Sumatera Utara