Abstract
Sampling of interstitial fluid (ISF) using microneedle (MN) patch offers a pain-free minimally invasive alternative to syringe needle-based blood sample collection. However, there is a challenge in the development of MN patch that provides swelling behavior with sufficient mechanical strength for skin penetration. Here, we report fabrication of MN patch made of biopolymer composite containing iota-carrageenan, gelatin, and polyethylene glycol. Calcium chloride was used as a crosslinker to improve mechanical strength. MN patch was characterized for integrity, swelling behavior, mechanical strength, aspiration of fluid from agarose gel, and the excised porcine ear skin. An array of 361 MNs was able to aspirate 36 ± 5 and 14 ± 1 μL fluid after application in agarose gel matrix and the ex vivo porcine skin model, respectively. MN patch applied in vivo rat model for 30 min resulted in the collection of ISF containing 267 ± 128 mg/dL, 24 ± 13 mg/dL, and 0.6 ± 0.4 mIU/mL of glucose, uric acid and thyroid stimulating hormone (TSH), respectively. The concentration of glucose, uric acid, and TSH in rat blood was found to be 199 ± 47 mg/dL, 8.4 ± 6 mg/dL, and 1.1 ± 0.6 mIU/mL at the same time. Furthermore, MN patch applied on the forearm of 10 healthy human volunteers for 30 min was able to aspirate 32 ± 14 μL of ISF. The concentration of glucose, uric acid, and TSH determined from ISF samples of human volunteers was 64 ± 25 mg/dL, 4.2 ± 4.1 mg/dL, and 0.16 ± 0.08 mIU/mL, respectively. The visual analogue scale (VAS) pain score after MN application was lower compared with hypodermic syringe needle insertion. Taken together, biopolymer composite-based swellable MN patch can be developed for collection of ISF for simultaneous determination of multiple biomolecules in a minimally invasive manner.
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