Debby Gawlitta
Overview
Explore the profile of Debby Gawlitta including associated specialties, affiliations and a list of published articles.
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55
Citations
1452
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Recent Articles
1.
Daghrery A, Dal-Fabbro R, Xu J, Kaigler D, de Ruijter M, Gawlitta D, et al.
Biomater Adv
. 2025 Feb;
170:214222.
PMID: 39923603
Advances in tissue engineering are focused on devising improved therapeutics to reconstruct craniofacial bones. In cell-based strategies, biomaterials with specific physicochemical properties can mimic natural environments, supporting stem cell renewal,...
2.
de Carvalho A, Rahimnejad M, Oliveira R, Sikder P, Saavedra G, Bhaduri S, et al.
Int J Oral Sci
. 2024 Nov;
16(1):62.
PMID: 39482290
The reconstruction of craniomaxillofacial bone defects remains clinically challenging. To date, autogenous grafts are considered the gold standard but present critical drawbacks. These shortcomings have driven recent research on craniomaxillofacial...
3.
Xiang Q, Li L, Ji W, Gawlitta D, Walboomers X, van den Beucken J
Cell Regen
. 2024 Oct;
13(1):22.
PMID: 39392536
Emerging evidence illustrates that osteoclasts (OCs) play diverse roles beyond bone resorption, contributing significantly to bone formation and regeneration. Despite this, OCs remain mysterious cells, with aspects of their lifespan-from...
4.
Rahmani N, Duits A, Croes M, Lock O, Gawlitta D, Weinans H, et al.
Tissue Eng Part A
. 2024 Sep;
PMID: 39345105
Autologous bone grafts are commonly used to repair defects in skeletal tissue, however, due to their limited supply there is a clinical need for alternatives. Synthetic ceramics present a promising...
5.
de Silva L, van den Beucken J, Rosenberg A, Longoni A, Gawlitta D
Stem Cells Transl Med
. 2024 Sep;
13(11):1086-1100.
PMID: 39276211
Endochondral bone regeneration is a promising approach in regenerative medicine. Callus mimics (CMs) are engineered and remodeled into bone tissue upon implantation. The long-term objective is to fabricate a sustainable...
6.
de Kort W, Haakma W, van Es R, Gawlitta D, Driehuis E, Gansevoort M, et al.
J Clin Med
. 2023 Sep;
12(18).
PMID: 37762975
Aims: Oral squamous cell carcinoma (OSCC) frequently invades the jaw. The exact mechanism of bone invasion remains unclear. This study investigates (premature) osteoclasts and the expression of its differentiation regulating...
7.
de Silva L, Longoni A, Staubli F, Nurmohamed S, Duits A, Rosenberg A, et al.
Adv Healthc Mater
. 2023 Aug;
12(29):e2301717.
PMID: 37580174
Implantation of engineered cartilage with soft callus features triggers remodeling to bone tissue via endochondral bone regeneration (EBR). Thus far, EBR has not progressed to the level of large animals...
8.
van Dijk L, Janssen N, Nurmohamed S, Muradin M, Longoni A, Bakker R, et al.
Clin Oral Implants Res
. 2023 Jan;
34(3):177-195.
PMID: 36645164
Objectives: The aim of this study was the preclinical and clinical evaluation of osteoinductive calcium phosphate with submicron surface topography as a bone graft substitute for maxillary sinus floor augmentation...
9.
Lim K, Zreiqat H, Gawlitta D
Acta Biomater
. 2023 Jan;
156:1-3.
PMID: 36639170
No abstract available.
10.
de Wildt B, Cramer E, de Silva L, Ito K, Gawlitta D, Hofmann S
Bone
. 2022 Oct;
166:116597.
PMID: 36280106
Advanced in vitro human bone defect models can contribute to the evaluation of materials for in situ bone regeneration, addressing both translational and ethical concerns regarding animal models. In this...