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Future Research Directions In Pulpal Biology, Endodontic Materials And, Endodontic Techniques

Gutmann, James L., (1994) Future Research Directions In Pulpal Biology, Endodontic Materials And, Endodontic Techniques. Annals of Dentistry, 1 (1). pp. 10-15. ISSN 0128-7532

Full text not available from this repository.

Official URL: http://ejum.fsktm.um.edu.my/ArticleInformation.aspx?ArticleID=521

Affiliations

Baylor College of Dentistry, Dallas, United States

Abstract

The rapid evolution of Endodontic as a dental speciality and the increasing demands to identify the biological basis for treatment have resulted in a plethora of research activities designed to address many unanswered questions. However, even with these undertakings, Endodontics has failed to receive the necessary support of investigators and support agencies around the world to pursue basic questions and treatment modalities which have been the subject of empiricism for years. While other dental disciplines garner the majority of available investigative dollars, "What's the big issue about this little tissue?" The purpose of this paper is to provide a brief analysis of research endeavors in the area of pulpal biology, directives for future investigative areas, perspectives on technological advances in endodontic therapy, and incentives and challenges to future pursuits.

Item Type:Journal
Keywords:Endodontics, endodonlology, research, pulpal biology, technological, advances
Subjects:R Medicine, Dentistry, Pharmacy, Nursing
ID Code:2164

1. Blayner JR. What teeth should be extracted: a report based upon further studies of root-canal therapy. J Amer Dent

Assoc 1928; 15: 1217-21.

2. Blayney JR. Fundamentals governing pulp-canal therapy.

Dent Cosmos 1932;74:635-53.'

3. Pashley DH. Dentin Permeability: Theory and Practice. In

Experimental endodontics, Spangberg LSW, ed. Boca Raton,

Florida: CRC Press, Inc., 1990:19-50.

4. Kim S. Microcirculation in the Dental Pulp. In Experimental

Endodontics, Spagberg LSW, ed. Boca Raton, Florida:

CRC Press, Inc., 1990:51-76.

5. Takahashi K, Kishi Y, Kim S.A scanning electron microscopic study of the blood vessels of dog pulp using corrosion resin casts. J Endod 1982;8:131-15.

6. Kim S. Microcirculation of the dental pulp in heath and disease. J Endod 1985;11:465-71.

7. Gazelius B, Edwall B, Olgart L, Sundberg .1M, Hokfelt T, Fischer JA. Vasodilatory effects and coexistence of calcitonin gene-related peptide (CGRP) and substance P in sensory nerves of cat pulp. Acta Physiol Scand 1987; 130 :30-40.

8. Liu MT, Park DS, Markowitz KL, Bilotto B, Dorscher-Kim J, Kim S. Effects of vasoactive agents on pulpal blood flow measured by laser Doppler velocimetry. J Dent Res 1988;67:215 Abstr A.188820.

9. Byers MR, Dong WK. Autoradiographic localization of sensory nerve endings in dentin of monkey teeth. Anat Rec 1983;205:441-54.

10. Byers MR, Narhi MV, Dong WK. Sensory innervation of pulp and dentin in adult dog teeth as demostrated by autoradiography. Anat Rec 1987;218:207-15.

11. Olgart L, Hofelt T, Nilsson G, Per now B. Localization of 15 substance P-like immunoreactivity in nerves in the tooth pulp. Pain 1977;4: 153-9.

12. Maeda T, lwanaga T, Fujita T Kobayashi S. Immunohistochemical demostration of nerves in the predentin and dentin of human third molars with the use of an antiserum againts neurofilament protein (NEP). Cell Tissu Res 1986;243:469-75.

13. Byers MR. Neuroanatomical Studies of Dental lnne rvation and Pain. In Experimental Endodontics, Spang berg LSW, ed. Boca Raton. Florida: CRC Press, Inc., 1990:77-114.

14. Torabinejad M, Borasmy U, Kettering JD. In vitro bacterial penetration of coronal usealed endodontically treated teeth. J Endod 1990;1 6:566-9.

15. Naidorf IJ. Immunoglobulins in periapical granulomas: a preliminary report. J. endod 1975;1:15-8.

16. Pulver WH, Taub man MA, Smith DJ. Immune components in normal and inflamed human dental pulp. Arch Oral Bioi 1077;22: 103-11.

17. Falkler WA, Martin SA, Tolba M, Siegel MA, Mackler BF. Reaction of pulpal immunoglobulins to oral microorganisms by an enzyme-linked immunosorbent assay. J Endod 1987;13:260-6.

18. Langeland K. Correlation of screening test to usage tests. J Endod 1978;4:300-3.

19. Tronstad L. Wennberg A, Hasselgren G. Screening tests for dental materials. J. Endod 1978;4:304-7.

20. American Dental Association. Biological evaluation of dental materials. Document A.18841, 1982.

21. Federation Dentaire Internationale. Recommended standard practices for thetbiological evaluation of dental materials. Int Dent J 1980; 30: 140-88.

22. Levy G. A new laser for endodontic and hard tissue applications. Dent Today 1991;10(2):36-9.

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