Conventional venipuncture is invasive and challenging in low and middle-income countries. Conversely, point-of-care devices paired with fingersticks, although less invasive, suffer from high variability and low blood volume collection. Recently approved microsampling devices address some of these issues but remain cost-prohibitive for resource-limited settings. In this work, a cost-effective microsampling device is described for the collection of liquid blood with minimal invasiveness and sufficient volume retrieval for laboratory analyses or immediate point-of-care testing. Inspired by the anatomy of sanguivorous leeches, the single-use device features a storage compartment for blood collection and a microneedle patch hidden within a suction cup. Finite Element Method simulations, corroborated by mechanical analyses, guide the material selection for device fabrication and design optimization. In piglets, the device successfully collects approximate to 195 mu L of blood with minimal invasiveness. Additionally, a tailor-made lid and adapter enable safe fluid transportation and integration with commercially available point-of-care systems for on-site analyses, respectively. Taken together, the proposed platform holds significant promise for enhancing healthcare in the pediatric population by improving patient compliance and reducing the risk of needlestick injuries through concealed microneedles. Most importantly, given its cost-effective fabrication, the open-source microsampling device may have a meaningful impact in resource-limited healthcare settings.Bioinspired and cost-effective device for capillary blood extraction. The device is composed of a storage compartment for liquid blood collection and a minimally invasive microneedle patch hidden within a suction cup. After collection, blood can be safely sent to laboratories for analyses or combined with commercially available point-of-care systems for rapid on-site testing. image
Zoratto, N., Klein-Cerrejon, D., Gao, D., Inchiparambil, T., Sachs, D., Luo, Z., et al. (2024). A Bioinspired and Cost-Effective Device for Minimally Invasive Blood Sampling. ADVANCED SCIENCE, 11(18) [10.1002/advs.202308809].
A Bioinspired and Cost-Effective Device for Minimally Invasive Blood Sampling
Zoratto N.;
2024-01-01
Abstract
Conventional venipuncture is invasive and challenging in low and middle-income countries. Conversely, point-of-care devices paired with fingersticks, although less invasive, suffer from high variability and low blood volume collection. Recently approved microsampling devices address some of these issues but remain cost-prohibitive for resource-limited settings. In this work, a cost-effective microsampling device is described for the collection of liquid blood with minimal invasiveness and sufficient volume retrieval for laboratory analyses or immediate point-of-care testing. Inspired by the anatomy of sanguivorous leeches, the single-use device features a storage compartment for blood collection and a microneedle patch hidden within a suction cup. Finite Element Method simulations, corroborated by mechanical analyses, guide the material selection for device fabrication and design optimization. In piglets, the device successfully collects approximate to 195 mu L of blood with minimal invasiveness. Additionally, a tailor-made lid and adapter enable safe fluid transportation and integration with commercially available point-of-care systems for on-site analyses, respectively. Taken together, the proposed platform holds significant promise for enhancing healthcare in the pediatric population by improving patient compliance and reducing the risk of needlestick injuries through concealed microneedles. Most importantly, given its cost-effective fabrication, the open-source microsampling device may have a meaningful impact in resource-limited healthcare settings.Bioinspired and cost-effective device for capillary blood extraction. The device is composed of a storage compartment for liquid blood collection and a minimally invasive microneedle patch hidden within a suction cup. After collection, blood can be safely sent to laboratories for analyses or combined with commercially available point-of-care systems for rapid on-site testing. image| File | Dimensione | Formato | |
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