Dilek Sönmezer Açıkgöz | Tissue engineering | Best Researcher Award

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Dr. Dilek Sönmezer Açıkgöz | Tissue engineering | Best Researcher Award

Phd at Çukurova University, Turkey

Dr. Dilek Sönmezer Açıkgöz is a Lecturer at Çukurova University’s Department of Biomedical Engineering, specializing in biomaterials, tissue engineering, and regenerative medicine. She holds a PhD from Erciyes University and has contributed to cutting-edge research on pericardial fluid applications in tissue engineering. Dr. Sönmezer has published extensively in SCI-indexed journals and presents regularly at international conferences.

Publication Profile

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🎓 Education

PhD: Biomedical Engineering, Erciyes University (2012-2022)MSc: Biomedical Engineering, Erciyes University (2008-2011)BSc: Biology, Erciyes University (2004-2008)Internship: Eindhoven University of Technology (2010-2011)

💼 Experience

Lecturer: Çukurova University (2014-present)Research: Tissue engineering, pericardial fluid characterization, biomaterial developmentPatent Holder: Ultrasonic system for coronary bypass surgery

🏆 Awards & Honors

Patent: Ultrasonic vascular measurement system (2015)Key Publications: Bio-Medical Materials and Engineering, Biotechnology Applied BiochemistryRecognitions: Frequent presenter at international biomedical conferences

🔬 Research Focus

Biomedical Engineering: Biomaterials, tissue engineering, pericardial fluid studiesBioprinting: Developing biocompatible bioinks for 3D printingRegenerative Medicine: Exploring extracellular matrix applications for tissue regeneration

Publications 📖

Applications of a Biocompatible Alginate/Pericardial Fluid-Based Hydrogel for the Production of a Bioink in Tissue Engineering
Biotechnology and Applied Biochemistry | 2024-12-02
DOI: 10.1002/bab.2697
Contributors: Dilek Sönmezer Açıkgöz, Fatma Latifoğlu, Güler Toprak, Münevver Baran

Production of Hydrogel with Alginate and Pericardial Fluid for Use in Tissue Engineering Applications
Çukurova Üniversitesi Mühendislik Fakültesi Dergisi | 2023-12-28
DOI: 10.21605/cukurovaumfd.1410697
Contributors: Dilek Sönmezer, Fatma Latifoğlu

A Native Extracellular Matrix Material for Tissue Engineering Applications: Characterization of Pericardial Fluid
Journal of Biomedical Materials Research Part B: Applied Biomaterials | 2023-09
DOI: 10.1002/jbm.b.35260
Contributors: Dilek Sönmezer, Fatma Latifoğlu, Güler Toprak, Münevver Baran

 

Conclusion

Dr. Dilek Sönmezer Açıkgöz stands out as a highly qualified candidate for the Best Researcher Award, with substantial contributions to biomedical engineering, tissue engineering, and biomaterials. Her dedication to research, publications in top journals, and development of patented technology make her a strong contender. Strengthening international partnerships and focusing on high-impact translational research can further enhance her candidacy for future recognitions.

Dr. Liang Yang | Bone biomaterials | Best Researcher Award

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Dr. Liang Yang | Bone biomaterials | Best Researcher Award

Dr at Shanghai Sixth People’s Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, China

Liang Yang, MD, is a 33-year-old orthopedic surgeon at Shanghai Sixth People’s Hospital, affiliated with Shanghai Jiao Tong University School of Medicine, China. Specializing in biomimetic materials for orthopedic reconstruction, he focuses on repairing bone defects under pathological conditions like osteoporosis. His innovative work on hydroxyapatite (HA) modification and chiral-engineered biomaterials has led to significant advancements in bone healing and regeneration.

Publication Profile

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🎓 Education

Liang Yang earned his MD in Orthopedics from Shanghai Jiao Tong University School of Medicine. His academic pursuits have centered on advancing orthopedic materials, particularly through modifying HA to enhance bioactivity. Yang’s education combined intensive clinical training with cutting-edge research on bioactive ion doping (Sr2+/Fe3+) in HA for bone regeneration, culminating in impactful publications and novel biomaterial development. His studies positioned him at the forefront of orthopedic biomimetics.

💼 Experienc

Dr. Yang has dedicated his career to orthopedic surgery and biomaterial research at Shanghai Sixth People’s Hospital. His expertise spans developing bioactive hydroxyapatite materials, pioneering chiral-engineered biomaterials, and addressing osteoporosis-induced bone defects. Yang has led multiple research projects, resulting in publications in high-impact journals. His work reflects a seamless blend of surgical practice and translational research, bridging the gap between clinical needs and innovative material solutions.

🏆 Awards and Honors

Dr. Yang’s contributions to orthopedic biomaterials have earned him recognition in scientific and medical communities. His publications in journals like Advanced Science and Chem. Eng. J. have been widely cited. He received institutional awards for innovation in biomimetic material development and recognition from Shanghai Jiao Tong University for advancing orthopedic reconstruction techniques. His groundbreaking work on chiral hydroxyapatite further positioned him as a leader in biomaterial innovation.

🔬 Research Focus

Liang Yang’s research focuses on biomimetic materials for orthopedic reconstruction, particularly hydroxyapatite (HA) modification to enhance bioactivity and bone regeneration. His work explores doping HA with Sr2+/Fe3+ ions to modulate immunoregulation, angiogenesis, and osteogenesis. Recently, Yang synthesized chiral hydroxyapatite (CHA) with enantiomer-dependent osseointegration properties, unveiling L-CHA’s superior potential for osteoporosis treatment. His research paves the way for next-gen chiral-engineered biomaterials in orthopedics.

Publications 📖

Chirality‐Induced Hydroxyapatite for Osteoporotic OsseointegrationAdvanced Science, 2024. DOI: 10.1002/advs.202411602.

Focus: Enantioselective bone-implant interactions to enhance osseointegration in osteoporosis.

Graphene Oxide Quantum Dot ScaffoldAdvanced Functional Materials, 2023. DOI: 10.1002/ADFM.202211709.

Focus: Immuno-inductive angiogenesis and nerve regeneration via biocompatible nanoscaffolds.

Cryogenically 3D Printed Biomimetic ScaffoldsChemical Engineering Journal, 2022. DOI: 10.1016/J.CEJ.2021.133459.

Focus: Bone tissue engineering using Sr2+/Fe3+ doped hydroxyapatite scaffolds.

Biomimetic Porous ScaffoldsBiomedical Materials, 2022. DOI: 10.1088/1748-605X/ac4b45.

Focus: Accelerated angiogenesis/osteogenesis with doped hydroxyapatite.

3D Printed Porous Scaffolds for Bone TissueBiofabrication, 2021. DOI: 10.1088/1758-5090/ABCF8D.

Focus: Bioactive scaffolds enhancing bone regeneration.

Anterior Acetabular Fracture FixationBMC Musculoskeletal Disorders, 2021. DOI: 10.1186/S12891-021-04034-W.

Focus: Surgical fixation methods for acetabular fractures.

Cartilage Changes with GlucocorticoidsCartilage, 2021. DOI: 10.1177/1947603520978574.

Focus: Epiphyseal cartilage effects in glucocorticoid-treated mice.

🔹 Conclusion

Dr. Liang Yang’s pioneering work in chiral hydroxyapatite and bioactive bone materials makes him a strong contender for the Best Researcher Award. His contributions to orthopedic biomaterials, innovative solutions for bone defects, and significant publication record underscore his potential to drive transformative advancements in orthopedic surgery and bone regeneration.

Krishna Chaitanya Sunka | Corneal Tissue Engineering | Best Researcher Award

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Dr.  Digident India Private Limite, India

An ambitious researcher with a strong background in electronics, materials science, 3D design, and fabrication techniques, currently based at the Biomaterials & Tissue Engineering Laboratory, Indian Institute of Technology, Kharagpur, India. With extensive experience in medical systems, basic coding, and a blend of technical breadth and vision, I specialize in integrating electronics, medical, mechanical, and software technologies into innovative solutions. My research interests include Digital Dentistry, Biomaterials Synthesis, Bio-fabrication, Photopolymerization, Medical Implants, Flexible Bioelectronics, and Additive Manufacturing. I hold a Ph.D. from IIT Kharagpur and an M.S. from NIT Tiruchirappalli, with a B.Tech. from Sri Venkateswara University, Tirupati.

Professional Profiles:

Scopus

🎓 Educational Background

Ph.D. (School of Medical Science & Technology)
2016 – 2023
Indian Institute of Technology, Kharagpur, IndiaM.S. (by Research) (Dept. of Instrumentation & Control Engineering)
2010 – 2013 | CGPA: 8.3/10
National Institute of Technology, Tiruchirappalli, IndiaB.Tech. (Dept. of Electronics Instrumentation & Control Engineering)
Sri Venkateswara University, Tirupati, India

🔬 Research Interests

Digital DentistryBiomaterials Synthesis & CharacterizationBio-fabrication & PhotopolymerizationSurface FunctionalizationMedical Implants and DevicesFlexible BioelectronicsCell Isolation and CultureAdditive ManufacturingActuators and Sensors

💡 Professional Summary

An ambitious researcher at the Biomaterials & Tissue Engineering Laboratory, Indian Institute of Technology, Kharagpur, with practical experience in electronics, materials, 3D design, fabrication techniques, medical systems, and basic coding. My unique blend of technical breadth and vision enables me to work cross-functionally, integrating electronics, medical, mechanical, and software technologies into compelling customer experiences. I thrive in providing technical and tactical leadership to cross-disciplinary teams, driving innovation and excellence in research and development.

Strengths for the Award:

  1. Interdisciplinary Expertise:
    • The researcher possesses a diverse skill set, combining expertise in electronics, materials, 3D design, fabrication techniques, and medical systems. This interdisciplinary knowledge is a critical asset in the field of biomaterials and tissue engineering, enabling them to contribute to various aspects of research and innovation.
  2. Practical Experience:
    • With hands-on experience in both basic coding and advanced fabrication techniques, the researcher is well-equipped to translate theoretical concepts into practical applications. This practical approach is essential for advancing medical devices and technologies that can have real-world impacts.
  3. Leadership in Cross-Disciplinary Teams:
    • The researcher’s ability to lead cross-disciplinary teams is a significant strength. This skill is crucial for successful project management, especially in complex fields like tissue engineering where collaboration across various domains is necessary for innovation.
  4. Research Focus:
    • The individual’s research interests, including digital dentistry, biomaterials synthesis, medical implants, and flexible bioelectronics, align well with current trends and needs in biomedical research. Their focus on cutting-edge areas such as photopolymerization and additive manufacturing highlights their forward-thinking approach.
  5. Academic Credentials:
    • The researcher has a solid educational background with a Ph.D. from a prestigious institution (IIT Kharagpur) and an M.S. from NIT Tiruchirappalli. These credentials underscore their dedication and capability in pursuing advanced research.

Areas for Improvement:

  1. Publication and Citation Impact:
    • While the profile highlights practical experience and interdisciplinary knowledge, there is no mention of the researcher’s publication record or citation impact. Strengthening their publication portfolio, particularly in high-impact journals, could enhance their visibility and credibility in the academic community.
  2. Grant Writing and Funding Acquisition:
    • To further advance their research, the individual may benefit from developing skills in grant writing and securing research funding. This would not only support their projects but also demonstrate their ability to lead and sustain long-term research initiatives.
  3. International Collaboration:
    • Expanding their network through international collaborations could provide additional opportunities for growth and innovation. Engaging with global experts and participating in international conferences could also increase the researcher’s exposure and influence in the field.

 

✍️Publications Top Note :

A novel intralamellar semi-bioresorbable keratoprosthesis—Part A: Design conception, material perspective, and device manufacturing

Authors: Sunka, K.C., Byram, P.K., Paikkattil, N., Chaudhuri, B.R., Dhara, S.

Journal: Journal of Applied Polymer Science, 2024, 141(28), e55644

A new approach of aspheric intralamellar keratoprostheses optic design made with poly(2-hydroxy ethylmethacrylate) hydrogel

Authors: Sunka, K.C., Ghosh, A., Ganguly, P., Chaudhuri, B.R., Dhara, S.

Journal: Biomedical Physics and Engineering Express, 2024, 10(4), 045035

A novel intralamellar semi-bioresorbable keratoprosthesis—Part B: Surface functionalization and physico-chemical characterization toward site-specific cellular activity

Authors: Sunka, K.C., Byram, P.K., Paikkattil, N., Chaudhuri, B.R., Dhara, S.

Journal: Journal of Applied Polymer Science, 2024

Strategic fabrication of SEBS composite with high strength and stretchability via incorporation of polymer-grafted cellulose nanofibers for biomedical applications

Authors: Maji, P., Sunka, K.C., Das, M., Dhara, S., Naskar, K.

Journal: Cellulose, 2023, 30(15), pp. 9465–9484

Silk Fibroin-Based Biomaterials in Biomedical Applications

Authors: Byram, P.K., Das, L., Sunka, K.C., Dhara, S., Chakravorty, N.

Book: Functional Biomaterials: Drug Delivery and Biomedical Applications, 2022, pp. 203–244

Machinable regenerated silk fibroin monoliths for tissue engineering applications

Authors: Sunka, K.C., Byram, P.K., Kumar, A., Chaudhuri, B.R., Dhara, S.

Journal: Trends in Biomaterials and Artificial Organs, 2021, 35(5), pp. 438–446

Biomimetic silk fibroin and xanthan gum blended hydrogels for connective tissue regeneration

Authors: Byram, P.K., Sunka, K.C., Barik, A., Dhara, S., Chakravorty, N.

Journal: International Journal of Biological Macromolecules, 2020, 165, pp. 874–882

Role of nanofibers on MSCs fate: Influence of fiber morphologies, compositions and external stimuli

Authors: Rajasekaran, R., Seesala, V.S., Sunka, K.C., Banerjee, M., Dhara, S.

Journal: Materials Science and Engineering C, 2020, 107, 110218

Design and investigation of a shape memory alloy actuated gripper

Authors: Chaitanya, S.K., Dhanalakshmi, K.

Journal: Smart Structures and Systems, 2014, 14(4), pp. 541–558

Demonstration of self-sensing in Shape Memory Alloy actuated gripper

Authors: Chaitanya, S.K., Dhanalakshmi, K.

Conference: IEEE International Symposium on Intelligent Control, 2013, pp. 218–222

Conclusion:

The researcher from the Biomaterials & Tissue Engineering Laboratory at IIT Kharagpur is a strong candidate for the Best Researcher Award. Their interdisciplinary expertise, practical experience, and leadership abilities make them well-suited for recognition in the field of biomaterials and tissue engineering. By focusing on increasing their publication impact, securing research funding, and expanding international collaborations, the researcher can further strengthen their case for this prestigious award. Their potential for innovation and contribution to the field positions them as a deserving recipient of the Best Researcher Award.