R&D Senior Fellow Ultrasound Engineer

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At Boston Scientific, we’ll give you the opportunity to harness all that’s within you by working in teams of diverse and high-performing employees, tackling some of the most important health industry challenges. With access to the latest tools, information and training, we’ll help you in advancing your skills and career. Here, you’ll be supported in progressing – whatever your ambitions.

Boston Scientific is currently looking for an R&D Senior Fellow Ultrasound Engineer. This person will provide an enterprise-level technical leadership across rotational intravascular ultrasound (IVUS) and therapeutic intravascular ultrasound (RDN and adjacent therapies). Define and deliver next-generation catheter-based transducers, rotational drive systems, front-end electronics, beamforming, and image/signal-processing architectures that materially advance clinical outcomes and sustain product leadership in minimally invasive imaging and therapeutic ultrasound.

At Boston Scientific, we value collaboration and synergy. This role follows a hybrid work model, requiring employees to be in our Maple Grove, MN office at least three days per week.

• Establish the multi-year ultrasound technology roadmap spanning rotational IVUS catheters and therapeutic intravascular ultrasound.
• Define reference architecture covering catheters, consoles, and signal processing pipelines; lead design reviews and serve as final technical authority for critical designs.
• Lead design and trade-studies for wideband, high-frequency IVUS transducers (40–60+ MHz) integrated with rotational drive and pullback systems.
• Guide material selections (PZT/PMN-PT/CMUT), acoustic matching, stack-ups, cabling, and packaging strategies for reliable high-speed rotation in vascular environments and therapeutic applications.
• Partner with suppliers on custom acoustic elements, flex/cabling, and assembly; qualify manufacturability, yield, and long-term reliability.

• Specify and optimize transmit beam patterns, TGC/AGC, analog front end, digitization, and image reconstruction pipelines under rotational acquisition constraints.
• Own IVUS-specific rendering of lumen/plaque/vessel wall, and develop advanced imaging modes (harmonic, ARFI/elasticity, quantitative ultrasound).

• Define and validate energy delivery profiles for renal denervation and related intravascular therapies.
• Develop closed-loop control systems for acoustic coupling, dosimetry, and safety monitoring (MI/TI, thermal limits).
• Collaborate on preclinical modeling, ex vivo/in vivo validation, and clinical translation of therapeutic ultrasound systems.
• Translate unmet clinical and marketing needs into verifiable system requirements.
• Drive risk analysis (ISO 14971), design controls, acoustic test methods, and rigorous verification/validation across imaging and therapy modes.
• Establish and track performance KPIs: image quality (SNR, contrast, axial/lateral resolution), therapy efficacy metrics, catheter pullback fidelity, latency, and safety indices.

• Mentor and technically guide teams in transducer design, EE, FW/SW, systems, and image science.
• Serve as technical approver in design reviews, hazard analyses, and clinical build reviews.
• Collaborate closely with clinicians, KOLs, regulatory, operations, and suppliers to de-risk and accelerate programs from concept through launch.

• Generate high-value intellectual property in catheter-based imaging and therapeutic ultrasound.
• Publish and present with KOL partners; scout and assess M&A, partnership, and supplier technologies relevant to ultrasound innovation.

• PhD or MS or BS in Electrical, Mechanical, or Biomedical Engineering with an ultrasound focus; 12+ years in medical ultrasound product development.
• Deep expertise in at least two of:
  • Real-time beamforming & signal chain optimization.
  • Image…