William J Landis
Overview
Explore the profile of William J Landis including associated specialties, affiliations and a list of published articles.
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49
Citations
650
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Recent Articles
1.
Shapiro I, Risbud M, Tang T, Landis W
Bone
. 2025 Jan;
193:117390.
PMID: 39814250
This paper presents a review of the potential role of the endoplasmic reticulum/Golgi complex and intracellular vesicles in mediating events leading to or associated with vertebrate tissue mineralization. The possible...
2.
Zheng K, Zhong J, Hu J, Nebbiolo E, Sanchez-Weatherby J, Tang T, et al.
Interface Focus
. 2024 Jul;
14(3):20230046.
PMID: 39081623
The process of mineralization fundamentally alters collagenous tissue biomechanics. While the structure and organization of mineral particles have been widely studied, the impact of mineralization on collagen matrix structure, particularly...
3.
Shapiro I, Risbud M, Landis W
Bone
. 2024 May;
185:117112.
PMID: 38697384
This review examines the possible role of mitochondria in maintaining calcium and phosphate ion homeostasis and participating in the mineralization of bone, cartilage and other vertebrate hard tissues. The paper...
4.
Hirano N, Kusuhara H, Sueyoshi Y, Teramura T, Murthy A, Asamura S, et al.
PLoS One
. 2021 Jul;
16(7):e0253149.
PMID: 34242238
A major obstacle for tissue engineering ear-shaped cartilage is poorly developed tissue comprising cell-scaffold constructs. To address this issue, bioresorbable scaffolds of poly-ε-caprolactone (PCL) and polyglycolic acid nanofibers (nanoPGA) were...
5.
Ustriyana P, Schulte F, Gombedza F, Gil-Bona A, Paruchuri S, Bidlack F, et al.
Bone Rep
. 2021 Mar;
14:100754.
PMID: 33665237
Bone biomineralization is a complex process in which type I collagen and associated non-collagenous proteins (NCPs), including glycoproteins and proteoglycans, interact closely with inorganic calcium and phosphate ions to control...
6.
Bundy J, Yang J, Morscher M, Steiner R, Adamczyk M, Weiner D, et al.
Connect Tissue Res
. 2020 Oct;
62(6):643-657.
PMID: 33073630
Purpose/aim: Thyroid hormone has been implicated in the normal growth and development of articular cartilage; however, its effect on a disease state, such as hypothyroidism, is unknown. The purpose of...
7.
Yu Q, Jacquet R, Landis W
Cells Tissues Organs
. 2020 Sep;
209(2-3):128-143.
PMID: 32937633
Delayed-union or non-union between a host bone and a graft is problematic in clinical treatment of segmental bone defects in orthopedic cases. Based on a preliminary study of human periosteum...
8.
Childs R, Nakao H, Isogai N, Murthy A, Landis W
PLoS One
. 2020 Jun;
15(6):e0234650.
PMID: 32555733
To investigate auricular reconstruction by tissue engineering means, this study compared cartilage regenerated from human chondrocytes obtained from either microtia or normal (conchal) tissues discarded from otoplasties. Isolated cells were...
9.
Zou Z, Tang T, Macias-Sanchez E, Sviben S, Landis W, Bertinetti L, et al.
Proc Natl Acad Sci U S A
. 2020 Jun;
117(25):14102-14109.
PMID: 32522867
The spatial-temporal relationship between cells, extracellular matrices, and mineral deposits is fundamental for an improved understanding of mineralization mechanisms in vertebrate tissues. By utilizing focused ion beam-scanning electron microscopy with...
10.
Widmer S, Steiner R, Morscher M, Shasti M, Weiner D, Adamczyk M, et al.
Bone Rep
. 2019 Jun;
10:100209.
PMID: 31194098
Control tissue in studies of various orthopedic pathologies is difficult to obtain and presumably equivalent biopsies from other anatomic sites have been utilized in its place. However, for growth plates,...