Hello, I Am
Madison Sublette
Bachelor of Science in Nutrition and Food Science
About Me
MY BACKGROUND
Texas A&M University graduate with a Bachelor of Science in Nutritional Sciences.
I have always had a natural passion for medicine, nutrition, and all things helping people. I envision an exciting future in the field of medicine where I will have the opportunity to guide patients towards a healthier lifestyle. Browse my site to see my personal and professional attributes that led me in my educational journey.
Mission
Improve society's health through the application of nutrition and food sciences, and through working as part of a medical sales team to bring the latest improvements in medical science to clinical practitioners and patients.
Professional Items
Resume
Skills
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Pharmaceutical & Med Device Experience
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Team Leadership
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Customer Service
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Data Collection, Analysis, & Reporting
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Persuasion & Influence
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Analytical Thinking Skills
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Scientific Research
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Cell Culture
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Communication Skills
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Bioprocessing Skills
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Hydrogel Materials Science
Research
I had the opportunity to study as an undergraduate researcher in the Biomedical Engineering Department at Texas A&M University. I had the pleasure of working/ following under the lead of Dr. David Chimene. During my time, I was able to gain experience and knowledge researching Nano-Engineered Ionic Covalent Entanglements (NICE) Reinforced Bioinks for 3D Printing.
The research focused on bone regeneration with the use of 3D bioprinting through incorporating patient scans and stem cells.
3D bioprinting enables the creation of custom scaffolds for repairing bone defects and recapitulates patient specific tissue architecture at both the macro and micro scale. By incorporating a patient's own stem cells into a remodelable scaffold specific to the injury, NICE bioinks allow effective reconstruction of bone tissue after complex injuries.
I had the privilege to participate in on various successful research projects of Dr. David Chimene, which I have included below.
Practical Craniofacial Defect Repair
Injectability
Implant Printability
Nanoengineered Osteoinductive Bioink for 3D Bioprinting Bone Tissue
David Chimene, Logan Miller, Lauren M. Cross, Manish K. Jaiswal, Irtisha Singh, and Akhilesh K. Gaharwar ACS Applied Materials & Interfaces 2020 12 (14), 15976-15988
DOI: 10.1021/acsami.9b19037
These models demonstrate the practical uses of the NICE bioink, which include images of prints for injectability, fracture recovery, and printing custom implantable scaffolds.
Electrosprayed Microsphere Printing
David Chimene et al. Nanoengineered Osteoinductive Bioink for 3D Bioprinting Bone Tissue
ACS Applied Materials & Interfaces 2020 12 (14), 15976-15988 DOI: 10.1021/acsami.9b19037
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3D Printing Hydrogel Microparticles
NICE bioinks can print 3D scaffolds at human relevant scales, allowing for a wide range of custom structures to be printed. We printed the structure of a human nose, as illustrated above.
We developed a process for making jammed microspheres print in structures that are significantly larger and tougher than that of comparable cell-friendly bioinks used in the past. These printed structures are flexible and elastic that can be enzymatically biodegraded over time.
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Solution Blown Spinning Reinforcement
D. Chimene et al. 2018
A similar side project incorporated the nanofibers made with solution blown spinning to reinforce bioprinted structures.
These nanofibers can also be used to create nanoporous tubular structures with applications for blood clotting and adhesion prevention.
Personal Growth
Activites
WHERE I SHINE
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Top Sales Performer
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AMPLIFY- Aggie Mentoring Network
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Tissue Engineering TAMU Research Department
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Mentoring/Tutoring Elementary Students
Interest
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OUT OF OFFICE
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Hiking
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Church
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Yoga
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Research
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Art
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Podcasting
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Traveling