Literature DB >> 29383862

Comparing human and mouse salivary glands: A practice guide for salivary researchers.

C L Maruyama1, M M Monroe2, J P Hunt2, L Buchmann2, O J Baker1.   

Abstract

Mice are a widely utilized in vivo model for translational salivary gland research but must be used with caution. Specifically, mouse salivary glands are similar in many ways to human salivary glands (i.e., in terms of their anatomy, histology, and physiology) and are both readily available and relatively easy and affordable to maintain. However, there are some significant differences between the two organisms, and by extension, the salivary glands derived from them must be taken into account for translational studies. The current review details pertinent similarities and differences between human and mouse salivary glands and offers practical guidelines for using both for research purposes.
© 2018 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd. All rights reserved.

Entities:  

Keywords:  anatomy; histology; physiology; primary cells; tissue culture; tissue engineering

Mesh:

Year:  2018        PMID: 29383862      PMCID: PMC6613660          DOI: 10.1111/odi.12840

Source DB:  PubMed          Journal:  Oral Dis        ISSN: 1354-523X            Impact factor:   3.511


  94 in total

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4.  Adult pancreatic beta-cells are formed by self-duplication rather than stem-cell differentiation.

Authors:  Yuval Dor; Juliana Brown; Olga I Martinez; Douglas A Melton
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5.  Changes in the distribution and fine structure of the intralobular blood vessels of the submandibular gland in the postnatally developing mouse.

Authors:  Bochun Lee; Takanori Matsuoka; Shigeo Aiyama
Journal:  Anat Rec A Discov Mol Cell Evol Biol       Date:  2005-12

6.  Minor salivary glands as a major source of secretory immunoglobin A in the human oral cavity.

Authors:  J M Crawford; M A Taubman; D J Smith
Journal:  Science       Date:  1975-12-19       Impact factor: 47.728

7.  Differential coupling of the P2Y1 receptor to Galpha14 and Galphaq/11 proteins during the development of the rat salivary gland.

Authors:  Olga J Baker; Jean M Camden; Ann M Ratchford; Cheikh I Seye; Laurie Erb; Gary A Weisman
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8.  Primary culture of polarized human salivary epithelial cells for use in developing an artificial salivary gland.

Authors:  S D Tran; J Wang; B C Bandyopadhyay; R S Redman; A Dutra; E Pak; W D Swaim; J A Gerstenhaber; J M Bryant; C Zheng; C M Goldsmith; M R Kok; R B Wellner; B J Baum
Journal:  Tissue Eng       Date:  2005 Jan-Feb

Review 9.  Matrigel: basement membrane matrix with biological activity.

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Journal:  Semin Cancer Biol       Date:  2005-10       Impact factor: 15.707

10.  Morphologic changes in the granular convoluted tubule cells of the mouse submandibular gland following hypophysectomy and hormonal replacement.

Authors:  Shingo Kurabuchi
Journal:  Odontology       Date:  2002-09       Impact factor: 2.634
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4.  Sex-dependent Regeneration Patterns in Mouse Submandibular Glands.

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5.  A Global Vista of the Epigenomic State of the Mouse Submandibular Gland.

Authors:  C Gluck; S Min; A Oyelakin; M Che; E Horeth; E A C Song; J Bard; N Lamb; S Sinha; R A Romano
Journal:  J Dent Res       Date:  2021-05-12       Impact factor: 6.116

6.  Protective effect of nano vitamin D against fatty degeneration in submandibular and sublingual salivary glands: A histological and ultrastructural study.

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7.  Development and Validation of a Clinically Relevant Workflow for MR-Guided Volumetric Arc Therapy in a Rabbit Model of Head and Neck Cancer.

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8.  Transduction of Salivary Gland Acinar Cells with a Novel AAV Vector 44.9.

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Review 9.  Experimental Animal Model Systems for Understanding Salivary Secretory Disorders.

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10.  Strategies for Developing Functional Secretory Epithelia from Porcine Salivary Gland Explant Outgrowth Culture Models.

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