Combining Acoustic Bioprinting with AI-Assisted Raman Spectroscopy for High-Throughput Identification of Bacteria in Blood

Author(s)

Safir, Fareeha; Vu, Nhat; Tadesse, Loza F.; Firouzi, Kamyar; Banaei, Niaz; Jeffrey, Stefanie S.; Saleh, Amr. A. E.; Khuri-Yakub, Butrus (Pierre) T.; Dionne, Jennifer A.; ... Show more Show less

Abstract

Identifying pathogens in complex samples such as blood, urine, and wastewater is critical to detect infection and inform optimal treatment. Surface-enhanced Raman spectroscopy (SERS) and machine learning (ML) can distinguish among multiple pathogen species, but processing complex fluid samples to sensitively and specifically detect pathogens remains an outstanding challenge. Here, we develop an acoustic bioprinter to digitize samples into millions of droplets, each containing just a few cells, which are identified with SERS and ML. We demonstrate rapid printing of 2 pL droplets from solutions containing S. epidermidis, E. coli, and blood; when they are mixed with gold nanorods (GNRs), SERS enhancements of up to 1500× are achieved.We then train a ML model and achieve ≥99% classification accuracy from cellularly pure samples and ≥87% accuracy from cellularly mixed samples. We also obtain ≥90% accuracy from droplets with pathogen:blood cell ratios <1. Our combined bioprinting and SERS platform could accelerate rapid, sensitive pathogen detection in clinical, environmental, and industrial settings.

Date issued

2023-03-01

URI

https://hdl.handle.net/1721.1/154870

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Nano Letters

Publisher

American Chemical Society

Citation

Safir, Fareeha, Vu, Nhat, Tadesse, Loza F., Firouzi, Kamyar, Banaei, Niaz et al. 2023. "Combining Acoustic Bioprinting with AI-Assisted Raman Spectroscopy for High-Throughput Identification of Bacteria in Blood." Nano Letters, 23 (6).

Version: Final published version

ISSN

1530-6984

1530-6992