Kill two birds with one stone: A novel dual-functional nanobiomaterial platform with a clear translational potential for bone regeneration

Yu Shrike Zhang; Zhiyuan Zhang

doi:10.1007/s12274-020-2926-2

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Kill two birds with one stone: A novel dual-functional nanobiomaterial platform with a clear translational potential for bone regeneration

Yu Shrike Zhang^¹(

), Zhiyuan Zhang^²(

)

1Division of Engineering in Medicine, Department of Medicine, Brigham and Women’s Hospital, Harvard Medical School, Cambridge, MA 02139, USA

2Department of Oral and Maxillofacial Surgery, Ninth People’s Hospital, Shanghai Jiao Tong University, Shanghai 200011, China

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References

[1]

Armiento,

A. R.

; Hatt,

L. P.

; Sanchez Rosenberg,

; Thompson,

; Stoddart,

M. J.

Functional biomaterials for bone regeneration: A lesson in complex biology. Adv. Funct. Mater. 2020, 1909874.

Crossref Google Scholar

[2]

Xu,

; Xiao,

; Cao,

Y. X.

; He,

; Lei,

; Xiao,

; Sun,

W. J.

; Ahadian,

; Zhou,

X. T.

; Khademhosseini,

et al. Mesoporous silica rods with cone shaped pores modulate inflammation and deliver BMP-2 for bone regeneration. Nano Res. 2020, 13, 2323-2331.

Crossref Google Scholar

[3]

Williams,

D. F.

Systemic Aspects of Biocompatibility; CRC Press: Florida, 1981.

[4]

Williams,

D. F.

On the mechanisms of biocompatibility. Biomaterials 2008, 29, 2941-2953.

Crossref Google Scholar

[5]

Schwartz,

; Boyan,

B. D.

Underlying mechanisms at the bone- biomaterial interface. J. Cell. Biochem. 1994, 56, 340-347.

Crossref Google Scholar

[6]

Dellacherie,

M. O.

; Seo,

B. R.

; Mooney,

D. J.

Macroscale biomaterials strategies for local immunomodulation. Nat. Rev. Mater. 2019, 4, 379-397.

Crossref Google Scholar

[7]

Hubbell,

J. A.

; Thomas,

S. N.

; Swartz,

M. A.

Materials engineering for immunomodulation. Nature 2009, 462, 449-460.

Crossref Google Scholar

[8]

Frey,

; Bandaru,

; Zhang,

Y. S.

; O'Kelly,

; Khademhosseini,

; Shin,

S. R.

A dual-layered microfluidic system for long-term controlled in situ delivery of multiple anti-inflammatory factors for chronic neural applications. Adv. Funct. Mater. 2018, 28, 1702009.

Crossref Google Scholar

[9]

Hanson,

; D’Souza,

R. N.

; Hematti,

Biomaterial-mesenchymal stem cell constructs for immunomodulation in composite tissue engineering. Tissue Eng. Part A 2014, 20, 2162-2168.

Crossref Google Scholar

[10]

Singh,

; Awuah,

; Rostam,

H. M.

; Emes,

R. D.

; Kandola,

N. K.

; Onion,

; Htwe,

S. S.

; Rajchagool,

; Cha,

B. H.

; Kim,

et al. Unbiased analysis of the impact of micropatterned biomaterials on macrophage behavior provides insights beyond predefined polarization states. ACS Biomater. Sci. Eng. 2017, 3, 969-978.

Crossref Google Scholar

[11]

Rostam,

H. M.

; Fisher,

L. E.

; Hook,

A. L.

; Burroughs,

; Luckett,

J. C.

; Figueredo,

G. P.

; Mbadugha,

; Teo,

A. C. K.

; Latif,

; Kämmerling,

Immune-instructive polymers control macrophage phenotype and modulate the foreign body response in vivo. Matter 2020, 6, 1564-1581.

Google Scholar

[12]

Kubackova,

; Zbytovska,

; Holas,

Nanomaterials for direct and indirect immunomodulation: A review of applications. Eur. J. Pharm. Sci. 2020, 142, 105139.

Google Scholar

[13]

Mehta,

; Schmidt-Bleek,

; Duda,

G. N.

; Mooney,

D. J.

Biomaterial delivery of morphogens to mimic the natural healing cascade in bone. Adv. Drug Del. Rev. 2012, 64, 1257-1276.

Google Scholar

[14]

Xie,

H. X.

; Gu,

Z. P.

; Li,

C. S.

; Franco,

; Wang,

J. Y.

; Li,

L. J.

; Meredith,

; Ye,

Q. S.

; Wan,

C. X.

A novel bioceramic scaffold integrating silk fibroin in calcium polyphosphate for bone tissue-engineering. Ceram. Int. 2016, 42, 2386-2392.

Google Scholar

[15]

Liu,

Z. P.

; Yin,

; Ye,

Q. S.

; He,

W. L.

; Ge,

M. K.

; Zhou,

X. F.

; Hu,

; Zou,

S. J.

Periodontal regeneration with stem cells-seeded collagen-hydroxyapatite scaffold. J. Biomater. Appl. 2016, 31, 121-131.

Google Scholar

Nano Research

Volume 13 Issue 9,
September 2020

Pages 2311-2312

DOI: 10.1007/s12274-020-2926-2

Cite this article:

Zhang YS, Zhang Z. Kill two birds with one stone: A novel dual-functional nanobiomaterial platform with a clear translational potential for bone regeneration. Nano Research, 2020, 13(9): 2311-2312. https://doi.org/10.1007/s12274-020-2926-2

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Received: 08 June 2020

Accepted: 09 June 2020

Published: 01 July 2020