Published Journal Articles & Book Chapters
Roberts MD, McCarthy JJ, Hornberger TA, Phillips SM, Mackey AL, Nader GA, Boppart MD, Kavazis AN, Reidy PT,
Ogasawara R, Libardi CA, Ugrinowitsch C, Booth FW, Esser KA. Mechanisms of mechanical overload-induced skeletal muscle hypertrophy: current understanding and future directions.
Physiol Rev. 2023 Oct 1;103(4):2679-2757. doi: 10.1152/physrev.00039.2022. Epub 2023 Jun 29. PMID: 37382939
Paulussen KJ, Barnes TM, Askow AT, Salvador AF, McKenna CF, Scaroni SE, Fliflet A, Ulanov AV, Li Z, West DW, Bauer LL, Paluska SA,
Dilger RN, Moore DR, Boppart MD, Burd NA.
Underpinning the Food Matrix Regulation of Postexercise Myofibrillar Protein Synthesis by Comparing Salmon Ingestion With the Sum of Its Isolated Nutrients in Healthy Young Adults.
J Nutr. 2023 May;153(5):1359-1372. doi: 10.1016/j.tjnut.2023.02.037. Epub 2023 Mar 2. PMID: 36870539. Wu YF, Lapp S, Dvoretskiy S, Garcia G, Kim M, Tannehill A, Daniels L, Boppart MD.
Optimization of a pericyte therapy to improve muscle recovery after limb immobilization.
J Appl Physiol (1985). 2022 Apr 1;132(4):1020-1030. doi: 10.1152/japplphysiol.00700.2021. Epub 2022 Feb 17. PMID: 35175105; PMCID: PMC8993526. Wu YF, Toba EA, Dvoretskiy S, Jung R, Kim N, Danels L, Romanova EV, Drnevich J, Sweedler
JV, Boppart MD. Development of a cell-free strategy to recover aged skeletal muscle after
disuse. J Physiol 2022. Wu YF, Lapp S, Dvoretskiy S, Garcia G, Kim M, Tannehill A, Daniels L, Boppart MD.
Optimization of a pericyte therapy to improve muscle recovery after limb immobilization. J Appl
Physiol 132: 1020-30, 2022. Mavropalias G, Wu YF, Boppart MD, Blazevich
AJ, Nosaka K. Increases in Integrin-ILK-Akt proteins, muscle mass, and strength after eccentric
cycling training. Med Sci Sports Exer, 2021. Baek AE, Krawczynska N, Das Gupta A,
Dvoretskiy SV, You S, Park J, Deng YH, Sorrells JE, Smith BP, Ma L, Nelson AT, McDowell HB,
Sprenger A, Henn MA, Madak-Erdogan Z, Kong H, Boppart SA, Boppart MD, Nelson ER. The cholesterol
metabolite 27HC increases secretion of extracellular vesicles which promote breast cancer
progression. Endocrinology, 162: bqab095, 2021. Garg K, Mahmassani ZS, Dvoretskiy S, Valero
MC, Huntsman HD, Lapp S, Wu YF, Hauschka SD, Burkin DJ, Boppart MD. Laminin-111 improves the
anabolic response to mechanical load in aged skeletal muscle. J Gerontol A Biol Sci Med Sci, 76:
586-90, 2021. Gardner JC, Dvoretskiy SV, Yang Y,
Venkataraman S, Lange DA, Li S, Boppart AL, Kim N, Rendeiro C, Boppart MD, Rhodes JS.
Electrically stimulated hind limb muscle contractions increase adult hippocampal
astrogliogenesis but not neurogenesis or behavioral performance in male C57BL/6J mice. Sci Rep,
10: 19319, 2020.
Leong J, Hong YT, Wu YF, Ko E, Dvoretskiy
S, Teo JY, Kim BS, Kim K, Jeon H, Boppart M, Yang YY, Hong H. Surface tethering of
inflammation-modulatory nanostimulators to stem cells for ischemic muscle repair. ACS Nano, 14:
5298-5313, 2020. Salvador AF, Askow AT, McKenna CF, Fang HY,
Burke SK, Li Z, Ulanov AV, Paluska SA, Petruzzello SJ, Boppart MD, Oliver JM, Burd NA.
Resistance Exercise-induced Regulation of Muscle Protein Synthesis to Intraset Rest. Med Sci
Sports Exerc, 2020. Dvoretskiy S, Garg K, Munroe M, Pincu Y,
Mahmassani ZS, Coombs C, Blackwell B, Garcia G, Waterstradt G, Lee I, Drevich J, Rhodes JS,
Boppart MD. The Impact of Skeletal Muscle Contraction on CD146+Lin- Pericytes. Am J Physiol Cell
Physiol, 2019. Boppart MD, Mahmassani ZS. Integrin
signaling: linking mechanical stimulation to skeletal muscle hypertrophy. Am J Physiol Cell
Physiol, 2019. Munroe M, Dvoretskiy S, Lopez A, Dyle
MC, Leong J, Kong H, Adams CM, Boppart MD. Pericyte transplantation improves skeletal muscle
recovery following hindlimb immobilization. FASEB J, 2019. Ko E, Yu SJ, Pagan-Diaz GJ, Mahmassani
Z, Boppart MD, Im SG, Bashir R, Kong H. Matrix Topography Regulates Synaptic Tranmission at the
Neuromuscular Junction. Adv Sci (Weinh), 2019. Munroe M, Mahmassani ZS, Dvoretskiy S,
Reid JJ, Miller BF, Hamilton K, Rhodes JS, Boppart MD. Cognitive function is preserved in aged
mice following long-term β-hydroxy β-methylbutyrate supplementation. Nutr Neurosci, 19:1-13,
2018. Hunstman HD, Rendeiro C, Merritt JR,
Pincu Y, Cobert A, De Liso M, Kolyvas E, Dvoretskiy S, Dobrucki IT, Kemkemer R, Jensen T,
Dobrucki LW, Rhodes JS, Boppart MD. The impact of mechanically stimulated muscle-derived stromal
cells on aged skeletal muscle. Exp Gerontol, 103:35-46, 2017. Hedhli J, Konopka CJ, Schuh S, Bouvin H,
Cole JA, Hunstman HD, Kilian KA, Dobrucki IT, Boppart MD, Dobruki LW. Multimodal assessment of
mesenchymal stem cell therapy for diabetic vascular complications. Theranostics, 16:3876-88,
2017. Rich
MH, Lee MK, Balance WC, Boppart MD, Kong HJ. Poly(ethylene glycol)-mediated collagen gel
mechanics regulates cellular phenotypes in a microchanneled matrix. Biomacromolecules,18:
2315-23, 2017. Bower AJ, Mahmassani Z, Zhao Y, Chaney
EJ, Marjanovic M, Lee MK, Graf BW, De Lisio M, Kong H, Boppart MD, Boppart SA. In vivo
assessment of engineered skin cell delivery with multimodal optical microscopy. Tissue Eng Part
C Methods, 23: 434-42, 2017. Mahmassani ZS, Son K, Pincu Y, Munroe M,
Drnevich J, Chen J, Boppart MD. a7b1 Integrin regulation of gene transcription in skeletal
muscle following an acute bout of eccentric exercise. Am J Physiol Cell Physiol, 312: C638-50,
2017. Chung HR, Wu PT, Fitschen PJ, Kistler
BM, Park H, Wilund KR, Boppart MD. The impact of exercise training on statin-associated skeletal
muscle myopathy. PLoS One, 11: e0168065, 2016. Munroe M, Pincu Y, Merritt J, Cobert A,
Brander R, Jensen T, Rhodes J, and Boppart MD. Impact of &beta-hydroxy &beta-methylbutyrate
(HMB) on age-related functional deficits in mice. Exp Gerontol, 87: 57-66, 2016. Garg K, Boppart MD. Influence of
exercise and aging on extracellular matrix composition in the skeletal muscle stem cell niche. J
Appl Physiol, 121: 1053-58, 2016. Invited review. Li J, Pincu Y, Marjanovic M, Bower AJ,
Chaney EJ, Jensen T, Boppart MD, Boppart SA. In vivo evaluation of adipose- and muscle-derived
stem cells as a treatment for nonhealing diabetic wounds using multimodal microscopy. J Biomed
Opt, 21: 86006, 2016. Pincu Y, Huntsman HD, Zou K, De Lisio M,
Mahmassani ZS, Munroe MR, Garg K, Jensen T, Boppart MD. Diet-induced obesity regulates
adipose-resident stromal cell quantity and extracellular matrix gene expression. Stem Cell Res
17: 181-90, 2016. Boppart MD, De Lisio M, Witkowski S.
Exercise and Stem Cells. In: Bouchard C, Ed. Progress in Molecular Biology and Translational
Science. Volume 135: Molecular and Cellular Regulation of Adaptation to Exercise. Elsevier Inc.,
2015, pp. 423-56. Farup J, De Lisio M, Rahbek SK, Bjerre
J, Vendelbo MH, Boppart MD, Vissing K. Pericyte response to contraction mode-specific resistance
exercise training in human skeletal muscle. J Appl Physiol, 119: 1053-63, 2015. De Lisio M, Farup J, Sukiennik RA,
Clevenger N, Nallabelli J, Belson B, Ryan K, Rahbek SK, de Paoli F, Vissing K, Boppart MD. The
acute response of pericytes to muscle-damaging eccentric contraction and protein supplementation
in human skeletal muscle. J Appl Physiol 119: 900-7, 2015. Pincu Y, Linden MA, Woods JA, T Baynard,
Boppart MD. The effects of high fat diet and moderate exercise on TGFbeta1 and collagen
deposition in mouse skeletal muscle. Cytokine 73:23-9, 2015. Caliari SR, Weisgerber DW, Grier WK,
Mahmassani Z, Boppart MD, Harley BAC. Collagen scaffolds incorporating coincident gradations of
instructive structural and biochemical cues for osteotendinous junction engineering. Adv Healthc
Mater 4: 831-7, 2015. Ogasawara R, Nakazato K, Sato K, Boppart
M, Fujita S. Resistance exercise increases active MMP and β1-integrin protein expression in
skeletal muscle. Physiol Rep, 2: e12212, 2014. Zhao Y, Marjanovic M, Chaney EJ, Graf
BW, Mahmassani Z, Boppart MD, Boppart SA. Longitudinal label-free tracking of cell death
dynamics in living engineered human skin tissue with a multimodal microscope. Biomed Opt
Express, 5: 3699-716, 2014. Zou K*, De Lisio M*, Huntsman HD, Pincu
Y, Mahmassani Z, Miller M, Olatunbosun D, Jensen T, Boppart MD. Laminin-111 improves skeletal
muscle stem cell quantity and function following eccentric exercise. Stem Cell Translational
Medicine, 3 (9), 1013-1022, 2014. (*equal contribution as first author) Zou K, Huntsman HD, Valero MC, Adams J,
Skelton J, De Lisio M, Jensen T, Boppart MD. Mesenchymal stem cells augment the adaptive
response to eccentric exercise. Med Sci Sports Exerc, 47 (2), 315-325, 2014. Lee MK, Rich MH, Shkumatov A, Liu SC,
Jeong JH, LeyTheng L, Boppart MD, Gillette MU, Bashir J, Lee J, Kong H. Glacier moraine
formation-mimicking colloidal particle assembly in microchanneled, bioactive hydrogel for
vascular and neural patterning. Adv Health Mater, Epub ahead of print, 2014. De Lisio M, Jensen T, Sukiennik AR,
Huntsman HD, Boppart MD. Substrate and strain alter the muscle-derived mesenchymal stem cell
secretome to promote myogenesis. Stem Cell Res Ther, 5: 74, 2014. Graf BW, Chaney EJ, Marjanovic M, Adie
SG, De Lisio M, Valero MC, Boppart MD, Boppart SA. Long-term time-lapse multimodal intravital
imaging of wound healing and bone-marrow-derived cell dynamics in skin. Technology, 1 (1), 8-19,
2013. Graf BW, Bower AJ, Chaney EJ, Marjanovic
M, Adie SG, De Lisio M, Valero MC, Boppart MD, Boppart SA. In vivo multimodal microscopy for
detecting bone-marrow-derived cell contribution to skin regeneration. J Biophotonics,
7(1-2):96-102, 2014. Boppart MD, De Lisio M, Zou K, Huntsman
HD. Defining a role for non-satellite stem cells in the regulation of muscle repair following
exercise. Front Physiol, 4:310, 2013. Review. Graf BW, Chaney EJ, Marjanovic M, De
Lisio M, Valero MC, Boppart MD, Boppart SA. In vivo imaging of immune cell dynamics in skin in
response to zinc-oxide nanoparticle exposure. Biomed Opt Express, 4(10):1817-28, 2013. Zhao Y, Bower AJ, Graf BW, Boppart MD,
Boppart SA. Imaging and tracking of bone marrow-derived immune and stem cells. In: Turken K, Ed.
Methods in Molecular Biology. Humana Press, 2013; pp. 1-20. Huntsman HD, Zachwieja N, Zou K, Ripchik
P, Valero MC, De Lisio M, Boppart MD. Mesenchymal stem cells contribute to vascular growth in
skeletal muscle in response to eccentric exercise. Am J Physiol Heart Circ Physiol,
304(1):H72-81, 2013. Zhao Y, BW Graf, E Chaney, Z Mahmassani,
E Antoniadou, R Devolder, H Kong, MD Boppart, and SA Boppart. Integrated multimodal optical
microscopy for structural and functional imaging of engineered and natural skin. J Biophotonics,
5: 437-448, 2012. Valero MC, Huntsman HD, Liu J, Zou K,
Boppart MD. Eccentric exercise facilitates mesenchymal stem cell appearance in skeletal muscle.
PLoS One, 7(1):e29760, 2012. Liu J, Milner DJ, Boppart MD, Ross RS,
Kaufman SJ. β1D chain increases α7β1 integrin and laminin and protects against sarcolemmal
damage in mdx mice. Hum Mol Genet 21: 1592-1603, 2012. Zou K, B Meador, B Johnson, C Valero, HD
Huntsman, K Huey, and MD Boppart. The α7β1 integrin increases muscle fiber hypertrophy following
multiple bouts of eccentric exercise. J Appl Physiol 111: 1134-1141, 2011. Lueders T, K Zou, HD Huntsman, B Meador,
Z Mahmassani, M Abel, MC Valero, K Huey, and MD Boppart. The α7β1 integrin accelerates fiber
hypertrophy and myogenesis following a single bout of eccentric exercise. Am J Physiol Cell
Physiol 301: C938-946, 2011. Boppart MD, DJ Burkin, and SJ Kaufman.
Activation of AKT signaling promotes cell growth and survival in α7β1 integrin-mediated
alleviation of muscular dystrophy. Biochimica Biophysica Acta (Molecular Basis of Disease)
1812(4): 439-446, 2011. Ding
H, Z Wang, F Nguyen, SA Boppart, LJ Millet, MU Gillette, J Liu, MD Boppart, and G Popescu.
Fourier Transform Light Scattering (FTLS) of Cells and Tissues. J Comp Theo Nanosci,
7:2501-2511, 2010. (Invited) Ding
H, E Bearl, Z Wang, LJ Millet, MU Gillette, J Liu, MD Boppart, and G Popescu. Fourier transform
light scattering of biological structures and dynamics. IEEE J Select Topics Quant Electronics,
16: 909-918, 2010. (Invited) Ge Y, AL Wu, C Warnes, J Liu, C Zhang, H
Kawasome, N Terada, MD Boppart, CJ Schoenherr, and J Chen. mTOR regulates skeletal muscle
regeneration through kinase-dependent and kinase-independent mechanisms. Am J Physiol Cell
Physiol, 297: C1434-1444, 2009. Boppart MD, SE Volker, N Alexander, DJ
Burkin, and SJ Kaufman. Exercise promotes α7 integrin gene transcription and protection in
skeletal muscle. Am J Physiol Regul Integr Comp Physiol, 295: R1623-1630, 2008. Boppart
MD, DJ Burkin, and SJ Kaufman. α7β1 Integrin inhibits mechanotransduction and prevents skeletal
muscle injury in vivo. Am J Physiol Cell Physiol 290: C1660-1665, 2006. Pasquesi JJ, S Schlachter, MD Boppart,
EJ Chaney, SJ Kaufman, and SA Boppart. In vivo detection of exercise-induced ultrastructural
changes in genetically-altered murine skeletal muscle using polarization-sensitive optical
coherence tomography. Optics Express, 14: 1547-1556, 2006. Fujii N, MD Boppart, SD Dufresne, PF
Crowley, AC Jozsi, K Sakamoto, H Miyazaki, MF Hirshman, and LJ Goodyear. Overexpression or
ablation of JNK in skeletal muscle has no effect on glycogen synthase activity. Am J Physiol
Cell Physiol, 287: C200-208, 2004. 45. Boppart MD, MF Hirshman, RA
Fielding, and LJ Goodyear. Static stretch markedly increases c-Jun NH2-terminal kinase (JNK)
activity and p38 phosphorylation in rat skeletal muscle. Am J Physiol Cell Physiol 280:
C352-C358, 2001. Boppart MD, S Asp, JFP Wojtaszewski, RA
Fielding, T Mohr, and LJ Goodyear. Marathon running transiently increases c-Jun NH2-terminal
kinase and p38 kinase activities in human skeletal muscle. J Physiol 526.3: 663-669,
2000. Boppart MD, D Aronson, J Bean, LJ
Goodyear, and RA Fielding. Eccentric exercise markedly increases c-Jun NH2-terminal kinase
activity in human skeletal muscle. J Appl Physiol 87: 1668-1673, 1999. Hayashi
T, SD Dufresne, DA Aronson, DJ Sherwood, MF Hirshman, MD Boppart, RA Fielding, and LJ Goodyear.
Intracellular Signaling Pathways in Contracting Skeletal Muscle. In: Hargreaves M, Thompson M,
Eds. Biochemistry of Exercise X. Champaign, IL: Human Kinetics Publishers, 1999; pp.
19-34. Boppart MD, DB Kimmel, JA Yee, and DM
Cullen. Time course of osteoblast appearance after in vivo mechanical loading. Bone 23(5):
409-15, 1998. Aronson D, MD Boppart, SD Dufresne, RA
Fielding, and LJ Goodyear. Exercise stimulates c-Jun NH2 kinase activity and c-Jun
transcriptional activity in human skeletal muscle. Biochem Biophys Res Comm 251: 106-110,
1998. Napoli R, L Gibson, MF Hirshman, MD
Boppart, SD Dufresne, ES Horton, and LJ Goodyear. Epinephrine and insulin stimulate different
mitogen-activated protein kinase signaling pathways in rat skeletal muscle. Diabetes 47:
1549-1554, 1998. Kvidera (Boppart) MD and GB
Carey. Glutamine synthetase in rat epididymal tissue. Proceedings of the Society for
Experimental Biology and Medicine, 206(4): 360-364, 1994.