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Items: 17

1.

Enabling Robust and Rapid Raw Material Identification and Release by Handheld Raman Spectroscopy.

Matthews TE, Coffman C, Kolwyck D, Hill D, Dickens JE.

PDA J Pharm Sci Technol. 2019 Jul-Aug;73(4):356-372. doi: 10.5731/pdajpst.2018.009563. Epub 2019 Feb 15.

PMID:
30770483
2.

The sensation of groove is affected by the interaction of rhythmic and harmonic complexity.

Matthews TE, Witek MAG, Heggli OA, Penhune VB, Vuust P.

PLoS One. 2019 Jan 10;14(1):e0204539. doi: 10.1371/journal.pone.0204539. eCollection 2019.

3.

Glucose monitoring and adaptive feeding of mammalian cell culture in the presence of strong autofluorescence by near infrared Raman spectroscopy.

Matthews TE, Smelko JP, Berry B, Romero-Torres S, Hill D, Kshirsagar R, Wiltberger K.

Biotechnol Prog. 2018 Nov;34(6):1574-1580. doi: 10.1002/btpr.2711. Epub 2018 Oct 3.

PMID:
30281947
4.

Closed loop control of lactate concentration in mammalian cell culture by Raman spectroscopy leads to improved cell density, viability, and biopharmaceutical protein production.

Matthews TE, Berry BN, Smelko J, Moretto J, Moore B, Wiltberger K.

Biotechnol Bioeng. 2016 Nov;113(11):2416-24. doi: 10.1002/bit.26018. Epub 2016 Jun 9.

PMID:
27215441
5.

The Impact of Instrument-Specific Musical Training on Rhythm Perception and Production.

Matthews TE, Thibodeau JN, Gunther BP, Penhune VB.

Front Psychol. 2016 Feb 3;7:69. doi: 10.3389/fpsyg.2016.00069. eCollection 2016.

6.

Sensitivity of coded aperture Raman spectroscopy to analytes beneath turbid biological tissue and tissue-simulating phantoms.

Maher JR, Matthews TE, Reid AK, Katz DF, Wax A.

J Biomed Opt. 2014;19(11):117001. doi: 10.1117/1.JBO.19.11.117001.

7.

Fourier domain multispectral multiple scattering low coherence interferometry.

Matthews TE, Giacomelli MG, Brown WJ, Wax A.

Appl Opt. 2013 Dec 1;52(34):8220-8. doi: 10.1364/AO.52.008220.

PMID:
24513821
8.

A scattering phantom for observing long range order with two-dimensional angle-resolved Low-Coherence Interferometry.

Yarmoska SK, Kim S, Matthews TE, Wax A.

Biomed Opt Express. 2013 Aug 26;4(9):1742-8. doi: 10.1364/BOE.4.001742. eCollection 2013.

9.

High-efficiency diffuse Raman spectroscopy through a fiber bundle.

Matthews TE, Wax A.

Conf Proc IEEE Eng Med Biol Soc. 2012;2012:1181-3. doi: 10.1109/EMBC.2012.6346147.

PMID:
23366108
10.

In vivo and ex vivo epi-mode pump-probe imaging of melanin and microvasculature.

Matthews TE, Wilson JW, Degan S, Simpson MJ, Jin JY, Zhang JY, Warren WS.

Biomed Opt Express. 2011 Jun 1;2(6):1576-83. doi: 10.1364/BOE.2.001576. Epub 2011 May 16.

11.

Pump-probe imaging differentiates melanoma from melanocytic nevi.

Matthews TE, Piletic IR, Selim MA, Simpson MJ, Warren WS.

Sci Transl Med. 2011 Feb 23;3(71):71ra15. doi: 10.1126/scitranslmed.3001604.

12.

Probing near-infrared photorelaxation pathways in eumelanins and pheomelanins.

Piletic IR, Matthews TE, Warren WS.

J Phys Chem A. 2010 Nov 4;114(43):11483-91. doi: 10.1021/jp103608d.

13.

Estimation of molar absorptivities and pigment sizes for eumelanin and pheomelanin using femtosecond transient absorption spectroscopy.

Piletic IR, Matthews TE, Warren WS.

J Chem Phys. 2009 Nov 14;131(18):181106. doi: 10.1063/1.3265861.

14.

Probing skin pigmentation changes with transient absorption imaging of eumelanin and pheomelanin.

Fu D, Ye T, Matthews TE, Grichnik J, Hong L, Simon JD, Warren WS.

J Biomed Opt. 2008 Sep-Oct;13(5):054036. doi: 10.1117/1.2976424.

15.

Label-free in vivo optical imaging of microvasculature and oxygenation level.

Fu D, Matthews TE, Ye T, Piletic IR, Warren WS.

J Biomed Opt. 2008 Jul-Aug;13(4):040503. doi: 10.1117/1.2968260.

16.

Two-color, two-photon, and excited-state absorption microscopy.

Fu D, Ye T, Matthews TE, Yurtsever G, Warren WS.

J Biomed Opt. 2007 Sep-Oct;12(5):054004.

17.

High-resolution in vivo imaging of blood vessels without labeling.

Fu D, Ye T, Matthews TE, Chen BJ, Yurtserver G, Warren WS.

Opt Lett. 2007 Sep 15;32(18):2641-3.

PMID:
17873920

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