Senior Tissue Engineer

About The Position

Requirements

• Strong foundation in biology and/or engineering principles.
• Team player, dedicated, collaborative, observant, and motivated.
• Excellent organizational skills, attention to detail, and verbal and written communication skills.
• Creative problem-solving skills and a passion for innovation.
• Excellent time management skills with the proven ability to meet deadlines and prioritize tasks.
• Enthusiasm for learning and participating in mentorship/mentoring.
• Proficiency with Microsoft Office Applications.
• Requires 5+ years of Bioengineering or related engineering experience.
• Applicants selected for this position will be required to obtain and maintain a government security clearance.

Nice To Haves

• Proven organ-specific expertise: Demonstrated ability to develop and implement advanced in vitro human‑derived MPS models (microfluidic devices, perfused bioreactors, 3D organoids) that meet quantitative organ-specific functional endpoints; organ expertise of interest includes brain/CNS, liver, kidney, lung, gut, vascular, and immune.
• Complex co-culture expertise: Experience integrating non‑parenchymal cells (e.g. fibroblasts, endothelial, immune cell populations) into organ specific-based models to recapitulate complex inflammatory and disease phenotypes; experience with organoid, primary and/or iPSC cultures.
• Advanced in‑vitro system fluency: Proven experience with microfluidic‑based cell and tissue culture platforms (e.g., micro-physiological systems (MPS), organ‑on‑chip).
• Broad technical breadth: Some experience with microbiology (viruses, bacteria, toxins), immunology, synthetic biology, genetic engineering, bioinformatics/data analytics, and/or in silico modeling; some experience applying AI/ML-driven cell painting to automate high‑content imaging, extract deep‑learning phenotypes, and integrate quantitative readouts into downstream analyses; some experience with bio-informatic pipelines for high-content image and omics integration (e.g. R/Python); some exposure to in silico PK/PD modeling to link MPS data to in vivo predictions; familiarity with lab-automation for routine laboratory workflows.
• Strong communication skills: Ability to convey complex biology concepts to engineers, data scientists, and senior management; experienced in multi‑disciplinary teamwork.
• Proposal development: Experience writing innovative R&D proposals for government sponsors (contracts, grants) and secure external funding.
• Professional skills: Demonstrated ability to work independently while thriving in a collaborative environment; demonstrated flexibility to multi-task, adapt to shifting priorities and thrive in a fast-moving, collaborative environment; prior involvement in industry-academic consortia, clinical collaborations, and/or successful track-record of securing external funding; experience generating high-impact scientific manuscripts or patent(s).

Responsibilities

• Drive solutions to complex problems with limited direction.
• Contribute to the development of innovative bioengineering solutions, propose ways forward, and adapt appropriately to changes in requirements.
• Able to provide insight and suggest design modifications based on analysis outcomes.
• Actively mentor less experienced bioengineers and provide thoughtful, constructive feedback.
• Performs other duties as assigned.
• Develop, optimize, and characterize mammalian organ-specific micro-physiological (MPS) and organ-on-chip models for toxicity, metabolism, and/or disease‑state studies; models of interest include brain/CNS, liver, kidney, lung, gut, vascular, and immune.
• Apply cell biology, developmental biology, and tissue engineering fundamentals to establish cell and tissue-based assays within Draper’s in vitro tissue culture systems under a variety of use-case scenarios.
• Plan, conduct, and lead in vitro technical experiments in Draper’s BSL-2 laboratory using advanced in vitro tissue culture technologies (micro-physiological system or organs-on-chip).
• Culture, maintain, and manipulate human primary and iPSC-derived cells and tissues across standard in vitro formats and within Draper’s proprietary MPS platforms.
• Perform broad suite of molecular, biochemical, and cellular assays (e.g. immunostaining, ELISA, Luminex, flow cytometry, DNA and RNA extraction, qPCR, multi-omics) and biostatical data analysis.
• Acquire brightfield, fluorescent and high-content confocal microscopy data; process and analyze image sets within automated pipelines to extract quantitative biological insights.
• Create, version-control, and maintain SOPs and analytical methods that are fully compatible within Draper’s platform technologies.
• Collect, interpret, and summarize data into clear and concise presentations and technical reports for presentations to project leads, internal management, external sponsors/customers, and for peer‑reviewed publication.
• Collaborate across multidisciplinary teams to execute project plans; mentor and train bench‑level colleagues and foster a collaborative, safety‑first lab culture.
• Troubleshoot experimental challenges in partnership with teammates and project leadership; drive rapid, data-backed decisions to keep projects on schedule.
• Complete all required training, adhere to institutional, governmental, and safety regulations, and champion an environment of compliance.
• Contribute to business‑development activities – technical ideation, proposal writing, and customer outreach – to expand Draper’s tissue engineering portfolio.
• Support day‑to‑day lab organization (reagent sourcing, material preparation, equipment upkeep) to keep the MPS workflow running smoothly.
• Work in face-paced, milestone-driven interdisciplinary environment where multi-tasking is essential.

Benefits

• workplace flexibility
• employee clubs ranging from photography to yoga
• health and finance workshops
• off site social events
• discounts to local museums and cultural activities