Kemal Sariibrahimoglu

Overview

Explore the profile of Kemal Sariibrahimoglu including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 11

Citations 111

Followers 0

Related Specialties

Biomedical Engineering

Anatomy & Histology

Biotechnology

Top 10 Co-Authors

Sander C G Leeuwenburgh

John A Jansen

Joop G C Wolke

Paula Ginter

Skander Limem

Fang Yang

Jeroen J J P van den Beucken

Yubao Li

Ishani D Premaratne

Li Yubao

Published In

Tissue Eng Part A

Acta Biomater

J Biomed Mater Res A

Plast Reconstr Surg

J Biomed Mater Res B Appl Biomater

Affiliations

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Recent Articles

Long-Term Maintenance of Projection of Nipples Reconstructed Using Three-Dimensionally Printed Poly-4-Hydroxybutyrate Bioabsorbable Scaffolds

Dong X, Shih S, Premaratne I, Sariibrahimoglu K, Ginter P, Scott J, et al.

Plast Reconstr Surg . 2023 Mar; 152(4):646e-654e. PMID: 36877752

Background: For patients who are unable to undergo nipple-sparing mastectomy, reconstruction of the nipple-areola complex has been shown to promote greater satisfaction in cosmetic outcome, body image, and sexual relationships....

Efficacy of treating segmental bone defects through endochondral ossification: 3D printed designs and bone metabolic activities

Hara K, Hellem E, Yamada S, Sariibrahimoglu K, Molster A, Gjerdet N, et al.

Mater Today Bio . 2022 Mar; 14:100237. PMID: 35280332

Three-dimensional printing (3D printing) is a promising technique for producing scaffolds for bone tissue engineering applications. Porous scaffolds can be printed directly, and the design, shape and porosity can be...

3D-printed poly-4-hydroxybutyrate bioabsorbable scaffolds for nipple reconstruction

Dong X, Premaratne I, Sariibrahimoglu K, Limem S, Scott J, Gadjiko M, et al.

Acta Biomater . 2022 Mar; 143:333-343. PMID: 35240316

Nearly all autologous tissue techniques and engineered tissue substitutes utilized for nipple reconstruction are hindered by scar contracture and loss of projection of the reconstructed nipple. The use of unprocessed...

Controlled Release of Chemotherapeutic Platinum-Bisphosphonate Complexes from Injectable Calcium Phosphate Cements

Farbod K, Sariibrahimoglu K, Curci A, Hayrapetyan A, Hakvoort J, van den Beucken J, et al.

Tissue Eng Part A . 2016 Apr; 22(9-10):788-800. PMID: 27083055

Herein, we present a method to release chemotherapeutic platinum-bisphosphonate (Pt-BP) complexes from apatitic calcium phosphate cements (CPCs). Pt-BP-loaded hydroxyapatite nanoparticles (HA NPs) were added at different ratios to the powder...

Development of porous polyurethane/strontium-substituted hydroxyapatite composites for bone regeneration

Sariibrahimoglu K, Yang W, Leeuwenburgh S, Yang F, Wolke J, Zuo Y, et al.

J Biomed Mater Res A . 2014 Sep; 103(6):1930-9. PMID: 25203691

Polyurethane (PU) has been widely used for the biomedical applications but its potential for bone regeneration is limited due to its lack of osteoconductive properties. Strontium substituted hydroxyapatite (SrHA) particles,...

Tuning the degradation rate of calcium phosphate cements by incorporating mixtures of polylactic-co-glycolic acid microspheres and glucono-delta-lactone microparticles

Sariibrahimoglu K, An J, van Oirschot B, Nijhuis A, Eman R, Alblas J, et al.

Tissue Eng Part A . 2014 May; 20(21-22):2870-82. PMID: 24819744

Calcium phosphate cements (CPCs) are frequently used as synthetic bone graft materials in view of their excellent osteocompatibility and clinical handling behavior. Hydroxyapatite-forming CPCs, however, degrade at very low rates,...

Injectable biphasic calcium phosphate cements as a potential bone substitute

Sariibrahimoglu K, Wolke J, Leeuwenburgh S, Yubao L, Jansen J

J Biomed Mater Res B Appl Biomater . 2013 Oct; 102(3):415-22. PMID: 24106108

Apatitic calcium phosphate cements (CPCs) have been widely used as bone grafts due to their excellent osteoconductive properties, but the degradation properties are insufficient to stimulate bone healing in large...

Accelerated calcium phosphate cement degradation due to incorporation of glucono-delta-lactone microparticles

Felix Lanao R, Sariibrahimoglu K, Wang H, Wolke J, Jansen J, Leeuwenburgh S

Tissue Eng Part A . 2013 Sep; 20(1-2):378-88. PMID: 24041246

Injectable calcium phosphate cements (CPC) are frequently used for filling of bone defects due to their excellent osteocompatibility. Their poor degradability, however, limits complete regeneration of bone defects. Organic additives...

Comparison of micro- vs. nanostructured colloidal gelatin gels for sustained delivery of osteogenic proteins: Bone morphogenetic protein-2 and alkaline phosphatase

Wang H, Boerman O, Sariibrahimoglu K, Li Y, Jansen J, Leeuwenburgh S

Biomaterials . 2012 Aug; 33(33):8695-703. PMID: 22922022

Colloidal gels have recently emerged as a promising new class of materials for regenerative medicine by employing micro- and nanospheres as building blocks to assemble into integral scaffolds. To this...

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Effect of calcium carbonate on hardening, physicochemical properties, and in vitro degradation of injectable calcium phosphate cements

Sariibrahimoglu K, Leeuwenburgh S, Wolke J, Yubao L, Jansen J

J Biomed Mater Res A . 2012 Jan; 100(3):712-9. PMID: 22213632

The main disadvantage of apatitic calcium phosphate cements (CPCs) is their slow degradation rate, which limits complete bone regeneration. Carbonate (CO₃²⁻) is the common constituent of bone and it can...