Work with thought leaders and academic experts in tissue engineering

Companies can greatly benefit from working with tissue engineering experts. These experts possess in-depth knowledge and skills in the field, allowing them to contribute to various aspects of research and development. They can provide valuable insights and innovative solutions to complex problems. Tissue engineering experts can also help companies in developing new products and technologies, improving existing processes, and optimizing production methods. Their expertise can be applied in a wide range of industries, including healthcare, pharmaceuticals, biotechnology, regenerative medicine, and medical device manufacturing. Collaborating with tissue engineering experts can give companies a competitive edge and accelerate their growth and success.

Researchers on NotedSource with backgrounds in tissue engineering include Dr. Justin Whalley, Ph.D, Aditya Kshirsagar, Dr. Anup Kumar Patel, Deep Jariwala, Payam Zarrintaj, Ph.D., and Beverly Miller, PhD.

Aditya Kshirsagar

Memphis, Tennessee, United States of America
St. Jude Children’s Research Hospital
Most Relevant Research Expertise
Tissue Engineering
Other Research Expertise (8)
Neuroscience
Developmental Biology
RNA biology
Computational biology
Biochemistry
And 3 more
About
Aditya Kshirsagar is a highly educated and experienced scientist focused on molecular genetics and neuroscience. He obtained his Ph.D. in Molecular Genetics and Neuroscience from the prestigious Weizmann Institute of Science in 2022. He gained extensive knowledge and expertise in genetics, molecular biology, and neuroscience during his doctoral studies. After completing his Ph.D., Adi joined St Jude Children's Research Hospital as a Postdoctoral Research Associate. Here, he has been involved in cutting-edge research projects, studying the genetic basis of various neurological disorders. He has published several research papers in top scientific journals, making significant contributions to genetics and neuroscience. Adi's passion for understanding the complex mechanisms underlying human diseases has driven him to pursue a research career. He is keen on developing integrated experimental and computational approaches for single-cell and spatial omics to uncover the mechanisms underlying complex neurological conditions and malignancies. He is highly skilled in experimental techniques and has a keen eye for detail, enabling him to design and execute innovative experiments. He is also well-versed in data analysis and interpretation, making him a valuable asset to any research team. His core competencies include embryonic stem cell biology, cortical development, 3D brain organoid models, RNA biology, next-generation sequencing, single-cell biology, multi-omics, and live imaging microscopy techniques. He is also proficient in R and Python programming and experienced in computational pipeline implementation, machine learning & AI, and comprehensive data integration. In addition to his scientific work, Adi is also dedicated to mentoring and teaching the next generation of scientists. He has supervised several master's and undergraduate students, guiding them in their research projects and helping them develop their scientific skills. Overall, Aditya Kshirsagar is a dedicated scientist with a strong background and a track record of excellence in research. His contributions to molecular genetics and neuroscience can potentially significantly impact the diagnosis and treatment of various diseases. Adi is passionate about exploring the potential of cutting-edge technologies and approaches to unravel the mysteries of the human brain and improve patients' lives.

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Dr. Anup Kumar Patel

Indian Institute of Technology Kanpur India & Beckman Research Institute of Coh, CA, United States
Most Relevant Research Expertise
Tissue Engineering
Other Research Expertise (4)
Biomaterials
Polymer Composites
Drug Delivery
Nanotechnology
About
Dear Sir/Madam, This is Dr. Anup Kumar Patel, who has been working as a Postdoctoral Scientist at City of Hope CA. My research involves the synthesis and characterization of polymeric (PS, PLA, and PMMA), metallic (Au, Ag), and silica nanoparticles, functionalization, hydrogels, drug delivery for cancer treatment, UV curable & 3-D printable ink for wound healing applications, bio tribology, polymeric coatings and Surface‐Enhanced Raman Scattering with nanophotonic and biomedical amplifying systems for an early diagnosis of Alzheimer’s disease pathology (functionalization of HCPCF with NPs to generate SERS for early Alzheimer’s detection). Currently, I am working on the synthesis. Efficacy and formulation optimization of various injectable polymeric hydrogel materials (cross-linked hyaluronic acid gel, peptide SIINFEKL (H-2 Kb) gel for stimulation of T cells, PLA & PLGA gel/glue/NPs, cross-linked gelatin-based gel, PLA-based drug eluting rods, etc. for targeted and controlled drug delivery in cancer treatment, etc.). I am eagerly looking for an R&D opening to use my expertise and gain more work exposure. I will be available immediately to shoulder the responsibility. ***I have a J1 VISA with validity up to Aug. 2027 and I am always open for O1 as well as H1B sponsorship for the same.*** I pursued my Ph.D. dissertation under the guidance of Professor Kantesh Balani (IIT-Kanpur India) on a most significant problem: formation of wear debris, aseptic-loosening, and implant failure associated with polymeric-based acetabular cup liner used in orthopedic-applications (THR and THR). The title of the thesis is entitled “Effect of Carbon Nanotubes and Aluminum Oxide Reinforcement on Multifunctional Properties of UHMWPE Biocomposites for Biomedical Applications”. I have done the functionalization of MWCNTs with 3-APTES, hydrothermal synthesis of ZnO particles, and reinforced in UHMWPE with the varying weight percentage of Aluminum oxide using ball milling. Fabrication of composite was done using compression molding technique and characterized for mechanical, thermal, tribological, and biological (mineralization of apatite, cell culture, and bactericidal efficacy) properties. It would be great if work involves any synthesis and fabrication of materials, surface functionalization of nano-particles, stimuli-responsive polymers, hydrogels and 3-D printing, and anti-adhesive coatings. During my Ph.D. and postdocs, I gained a confident level of experience in the fabrication of biomaterials & their characterization using various techniques: XPS, SPR, AFM, XRD, FTIR, DSC, TEM, SEM, Raman, and nanoindentation for morphological, phase stability, and mechanical properties. Simultaneously, the synthesis of carbon nanofibers, and cell culture expertise (culture studies on various material surfaces with and without modification using L929 Mouse fibroblast cell line as well as MSCs cells) work were also pursued. I also have been working for \~ 2 years as a project associate in the Dept. of Chemical & Mechanical Eng. at IIT Kanpur with Profs. Y.M. Joshi, Ashutosh Sharma, and Sumit Basu respectively (pre-PhD). Lastly, I will be highly obliged to you for allowing me to work with your organization. Thank you very much! Sincerely, Anup

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Example tissue engineering projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on tissue engineering?

Development of Artificial Organs

A tissue engineering expert can collaborate with a company to develop artificial organs using biofabrication techniques. This can revolutionize the field of organ transplantation and provide life-saving solutions for patients in need of organ replacements.

Drug Delivery Systems

Companies can benefit from the expertise of tissue engineering researchers in developing advanced drug delivery systems. These systems can improve the efficacy and targeted delivery of pharmaceutical drugs, leading to better patient outcomes and reduced side effects.

Wound Healing Technologies

Tissue engineering experts can contribute to the development of innovative wound healing technologies. This can include the design and fabrication of biomaterials, scaffolds, and growth factors that promote faster and more effective healing of wounds.

Bioengineered Tissues and Organs for Testing

Collaborating with tissue engineering experts allows companies to create bioengineered tissues and organs for testing purposes. This can be particularly beneficial in the pharmaceutical industry for drug screening and toxicity testing, reducing the reliance on animal models.

Bioprinting and 3D Tissue Engineering

Tissue engineering researchers can assist companies in the development of bioprinting technologies and 3D tissue engineering. This can enable the fabrication of complex tissue structures and organs, opening up new possibilities in personalized medicine and regenerative therapies.