Microbial adhesion to maxillary obturator materials

2012 doctoral thesis by Karl Michael Lyons at University of Otago

Place doctoral_thesis Q111965667

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Microbial adhesion to maxillary obturator materials

Summary

Microbial adhesion to maxillary obturator materials is a doctoral thesis^[1].

Key Facts

Microbial adhesion to maxillary obturator materials authored Karl Lyons^[2].
Microbial adhesion to maxillary obturator materials's instance of is recorded as doctoral thesis^[3].
Microbial adhesion to maxillary obturator materials's publisher is recorded as OUR Archive^[4].
Microbial adhesion to maxillary obturator materials's language of work or name is recorded as English^[5].
Microbial adhesion to maxillary obturator materials's country of origin is recorded as New Zealand^[6].
Microbial adhesion to maxillary obturator materials's publication date is recorded as +2012-00-00T00:00:00Z^[7].
Microbial adhesion to maxillary obturator materials's main subject is recorded as biofilm^[8].
Microbial adhesion to maxillary obturator materials's main subject is recorded as bacteria^[9].
Microbial adhesion to maxillary obturator materials's main subject is recorded as Candida albicans^[10].
Microbial adhesion to maxillary obturator materials's main subject is recorded as colonization^[11].
Microbial adhesion to maxillary obturator materials's main subject is recorded as adaptive radiation therapy^[12].
Microbial adhesion to maxillary obturator materials's main subject is recorded as microorganism^[13].
Microbial adhesion to maxillary obturator materials's main subject is recorded as Candida^[14].
Microbial adhesion to maxillary obturator materials's main subject is recorded as mucositis^[15].
Microbial adhesion to maxillary obturator materials's main subject is recorded as surface roughness^[16].
Microbial adhesion to maxillary obturator materials's main subject is recorded as prosthesis^[17].
Microbial adhesion to maxillary obturator materials's main subject is recorded as BPIFA2^[18].
Microbial adhesion to maxillary obturator materials's work available at URL is recorded as https://ourarchive.otago.ac.nz/handle/10523/2500^[19].
Microbial adhesion to maxillary obturator materials's Handle ID is recorded as 10523/2500^[20].
Microbial adhesion to maxillary obturator materials's title is recorded as Microbial adhesion to maxillary obturator materials^[21].
Microbial adhesion to maxillary obturator materials's copyright holder is recorded as Karl Lyons^[22].
Microbial adhesion to maxillary obturator materials's thesis submitted to is recorded as University of Otago^[23].
Microbial adhesion to maxillary obturator materials's on focus list of Wikimedia project is recorded as NZThesisProject^[24].
Microbial adhesion to maxillary obturator materials's copyright status is recorded as copyrighted^[25].
Microbial adhesion to maxillary obturator materials's thesis committee member is recorded as Richard D. Cannon^[26].

Body

Designation and Status

Microbial adhesion to maxillary obturator materials's instance of is recorded as doctoral thesis^[3].

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Quick Facts

Instance of doctoral thesis

Author Karl Lyons

Language of work or name English

Publication date 2012

Properties

Country of origin New Zealand

Imported from wholeness_audit_2026-05-02

Main subject biofilm, bacteria, Candida albicans, colonization, adaptive radiation therapy, microorganism, Candida, mucositis, surface roughness, prosthesis, BPIFA2

On focus list of wikimedia project NZThesisProject

Publisher OUR Archive

Thesis committee member Richard D. Cannon, Robert Matthew Love

Thesis submitted to University of Otago

Title Microbial adhesion to maxillary obturator materials

Work available at url ourarchive.otago.ac.nz

External References (1)

Handle id 10523/2500

References

Programmatic citations — every numbered marker resolves to a verifiable graph row below.

Direct Wikidata claims

[3] ↑ Microbial adhesion to maxillary obturator materials — instance of (P31): doctoral thesis. wikidata.org.
[2] ↑ Microbial adhesion to maxillary obturator materials — author (P50): Karl Lyons. wikidata.org.
[4] ↑ Microbial adhesion to maxillary obturator materials — publisher (P123): OUR Archive. wikidata.org.
[5] ↑ Microbial adhesion to maxillary obturator materials — language of work or name (P407): English. wikidata.org.
[6] ↑ Microbial adhesion to maxillary obturator materials — country of origin (P495): New Zealand. wikidata.org.
[7] ↑ Microbial adhesion to maxillary obturator materials — publication date (P577): +2012-00-00T00:00:00Z. wikidata.org.
[8] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): biofilm. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[9] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): bacteria. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[10] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): Candida albicans. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[11] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): colonization. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[12] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): adaptive radiation therapy. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[13] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): microorganism. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[14] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): Candida. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[15] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): mucositis. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[16] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): surface roughness. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[17] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): prosthesis. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[18] ↑ Microbial adhesion to maxillary obturator materials — main subject (P921): BPIFA2. hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
[19] ↑ Microbial adhesion to maxillary obturator materials — work available at URL (P953): https://ourarchive.otago.ac.nz/handle/10523/2500. wikidata.org.
[20] ↑ Microbial adhesion to maxillary obturator materials — Handle ID (P1184): 10523/2500. wikidata.org.
[21] ↑ Microbial adhesion to maxillary obturator materials — title (P1476): Microbial adhesion to maxillary obturator materials. wikidata.org.
[22] ↑ Microbial adhesion to maxillary obturator materials — copyright holder (P3931): Karl Lyons. wikidata.org.
[23] ↑ Microbial adhesion to maxillary obturator materials — thesis submitted to (P4101): University of Otago. wikidata.org.
[24] ↑ Microbial adhesion to maxillary obturator materials — on focus list of Wikimedia project (P5008): NZThesisProject. wikidata.org.
[25] ↑ Microbial adhesion to maxillary obturator materials — copyright status (P6216): copyrighted. wikidata.org.
[26] ↑ Microbial adhesion to maxillary obturator materials — thesis committee member (P9161): Richard D. Cannon. wikidata.org.

Class ancestry

[1] ↑ Microbial adhesion to maxillary obturator materials is an instance of doctoral thesis (Q187685) [P31, primary]. Wikidata. wikidata.org.

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APA

4ort.xyz Knowledge Graph. (2026). Microbial adhesion to maxillary obturator materials. Retrieved May 3, 2026, from https://4ort.xyz/entity/microbial-adhesion-to-maxillary-obturator-materials

MLA

“Microbial adhesion to maxillary obturator materials.” 4ort.xyz Knowledge Graph, 4ort.xyz, 3 May. 2026, https://4ort.xyz/entity/microbial-adhesion-to-maxillary-obturator-materials.

BibTeX

@misc{4ortxyz_microbial-adhesion-to-maxillary-obturator-materials_2026, author = {{4ort.xyz Knowledge Graph}}, title = {{Microbial adhesion to maxillary obturator materials}}, year = {2026}, url = {https://4ort.xyz/entity/microbial-adhesion-to-maxillary-obturator-materials}, note = {Accessed: 2026-05-03}}

LLM prompt

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