Sage Journals: Discover world-class research

Abstract

Introduction:

Hyaluronic acid (HA)-based fillers are used for various cosmetic procedures. However, due to filler migration and degradation, reinjections of the fillers are often required. Methacrylated HA (MA-HA) can be made into injectable shape-memorizing fillers (three-dimensional [3D] MA-HA) aimed to address these issues. In this study, shape retention, firmness, and biocompatibility of 3D MA-HA injected subcutaneously in mice were evaluated.

Materials

and Methods: Fifteen mice, each receiving two subcutaneous injections in their back, were divided into four groups receiving HA, MA-HA, 3D MA-HA, or saline, respectively. Digital imaging, scanning electron microscope (SEM) and in vivo imaging system (IVIS), durometry, and histology were utilized to evaluate in vitro/vivo degradation and migration, material firmness, and the angiogenic (CD31) and immunogenic (CD45) response of the host tissue toward the injected materials.

Results:

Digital imaging, SEM, and IVIS revealed that 3D MA-HA fillers maintained their predetermined shape for at least 30 days in vitro and in vivo. Little volume effects were noted in the saline and other control groups. There were no differences in skin firmness between the groups or over time. Histology showed intact skin architecture in all groups. Three-dimensional MA-HA maintained its macroporous structure with significant angiogenesis at the 3D MA-HA/skin interfaces and throughout the 3D MA-HA. There was no significant inflammatory response to any of the injected materials.

Conclusion:

3D MA-HA showed remarkable tissue compatibility, compliance, and shape predictability, as well as retention, and thus might be suitable for various skin sculpting and soft tissue reconstruction purposes.

Get full access to this article

View all access options for this article.

References

Attenello

N.H.

, and Maas

C.S.

Injectable fillers: review of material and properties. Facial Plast Surg, 31, 29, 2015.

Carruthers

, Carruthers

, and Humphrey

Introduction to fillers. Plast Reconstr Surg, 136, 120S, 2015.

Lupo

M.P.

Hyaluronic acid fillers in facial rejuvenation. Semin Cutan Med Surg, 25, 122, 2006.

Kablik

, Monheit

G.D.

, Yu

, Chang

, and Gershkovich

Comparative physical properties of hyaluronic acid dermal fillers. Dermatol Surg, 35, Suppl 1: 302, 2009.

Sundaram

, and Cassuto

Biophysical characteristics of hyaluronic acid soft-tissue fillers and their relevance to aesthetic applications. Plast Reconstr Surg, 132, 5S, 2013.

De Boulle

Management of complications after implantation of fillers. J Cosmet Dermatol, 3, 2, 2004.

Mummert

M.E.

Immunologic roles of hyaluronan. Immunol Res, 31, 189, 2005.

Fakhari

, and Berkland

Applications and emerging trends of hyaluronic acid in tissue engineering, as a dermal filler and in osteoarthritis treatment. Acta Biomater, 9, 7081, 2013.

Bertossi

, Sbarbati

, Cerini

, Barillari

, Favero

, Picozzi

, Ruzzenente

, Salvagno

, Guidi

G.C.

, and Nocini

Hyaluronic acid: in vitro and in vivo analysis, biochemical properties and histological and morphological evaluation of injected filler. Eur J Dermatol, 23, 449, 2013.

10.

Wang

, Garza

L.A.

, Kang

, Varani

, Orringer

J.S.

, Fisher

G.J.

, and Voorhees

J.J.

In vivo stimulation of a de novo collagen production caused by cross-linked hyaluronic acid dermal filler injections in photodamaged human skin. Arch Dermatol, 143, 155, 2007.

11.

Turlier

, Delalleau

, Casas

, Rouquier

, Bianchi

, Alvarez

, Josse

, Briant

, Dahan

, Saint-Martory

, Theunis

, Bensafi-Benaouda

, Degouy

, Schmitt

A.M.

, and Redoulès

Association between collagen production and mechanical stretching in dermal extracellular matrix: in vivo effect of cross-linked hyaluronic acid filler. A randomised, placebo-controlled study. J Dermatol Sci, 69, 187, 2013.

12.

Wohlrab

, Wohlrab

, and Neubert

R.H.

Comparison of noncross-linked and cross-linked hyaluronic acid with regard to efficacy of the proliferative activity of cutaneous fibroblasts and keratinocytes in vitro. J Cosmet Dermatol, 12, 36, 2013.

13.

Bencherif

S.A.

, Sands

R.W.

, Bhatta

, Arany

, Verbeke

C.S.

, Edwards

D.A.

, and Mooney

D.J.

Injectable preformed scaffolds with shape-memory properties. Proc Natl Acad Sci U S A, 109, 19590, 2012.

14.

Koshy

S.T.

, Ferrante

T.C.

, Lewin

S.A.

, and Mooney

D.J.

Injectable, porous, and cell-responsive gelatin cryogels. Biomaterials, 35, 2477, 2014.

15.

Béduer

, Braschler

, Peric

, Fantner

G.E.

, Mosser

, Fraering

P.C.

, Benchérif

, Mooney

D.J.

, and Renaud

A compressible scaffold for minimally invasive delivery of large intact neuronal networks. Adv Healthc Mater, 28, 301, 2015.

16.

Klinger

, Caviggioli

, Klinger

F.M.

, Giannasi

, Bandi

, Banzatti

, Forcellini

, Maione

, Catania

, and Vinci

Autologous fat graft in scar treatment. J Craniofac Surg, 24, 1610, 2013.

17.

Yun

I.S.

, Jeon

Y.R.

, Lee

W.J.

, Lee

J.W.

, Rah

D.K.

, Tark

K.C.

, and Lew

D.H.

Effect of human adipose derived stem cells on scar formation and remodeling in a pig model: a pilot study. Dermatol Surg, 38, 1678, 2012.

18.

Heit

Y.I.

, Lancerotto

, Mesteri

, Ackermann

, Navarrete

M.F.

, Nguyen

C.T.

, Mukundan

Jr. , Konerding

M.A.

, Del Vecchio

D.A.

, and Orgill

D.P.

External volume expansion increases subcutaneous thickness, cell proliferation, and vascular remodeling in a murine model. Plast Reconstr Surg, 130, 541, 2012.

19.

Lancerotto

, Chin

M.S.

, Freniere

, Lujan-Hernandez

J.R.

, Li

, Valderrama Vasquez

, Bassetto

, Del Vecchio

D.A.

, Lalikos

J.F.

, and Orgill

D.P.

Mechanisms of action of external volume expansion devices. Plast Reconstr Surg, 132, 569, 2013.

20.

Rubert

, Alonso-Sande

, Monjo

, and Ramis

J.M.

Evaluation of alginate and hyaluronic acid for their use in bone tissue engineering. Biointerphases, 7, 11, 2012.

21.

Kissin

E.Y.

, Schiller

A.M.

, Gelbard

R.B.

, Anderson

J.J.

, Falanga

, Simms

R.W.

, Korn

J.H.

, and Merkel

P.A.

Durometry for the assessment of skin disease in systemic sclerosis. Arthritis Rheumat, 55, 603, 2006.

22.

Falanga

, and Bucalo

Use of a durometer to assess skin hardness. J Am Acad Dermatol, 29, 47, 1993.

23.

Reisfeld

P.L.

A hard subject: use of a durometer to assess skin hardness. J Am Acad Dermatol, 31, 515, 1994.

24.

Wolff

, Pal

, Altun

, Madankumar

, Freeman

, Amin

, Harman

, Santoro

, and Taylor

H.S.

Skin wrinkles and rigidity in early postmenopausal women vary by race/ethnicity: baseline characteristics of the skin ancillary study of the keeps trial. Fertil Steril, 95, 658, 2011.

25.

Moon

K.W.

, Song

, Kim

J.H.

, Lee

E.Y.

, Lee

E.B.

, and Song

Y.W.

The correlation between durometer score and modified Rodnan skin score in systemic sclerosis. Rheumatol Int, 32, 2465, 2012.

26.

Yannas

I.V.

, Lee

, Orgill

D.P.

, Skrabut

E.M.

, and Murphy

G.F.

Synthesis and characterization of a model extracellular matrix that induces partial regeneration of adult mammalian skin. Proc Natl Acad Sci U S A, 86, 933, 1989.

27.

O'Brien

F.J.

, Harley

B.A.

, Yannas

I.V.

, and Gibson

L.J.

The effect of pore size on cell adhesion in collagen-GAG scaffolds. Biomaterials, 26, 433, 2005.

28.

Weinberg

M.J.

, and Solish

Complications of hyaluronic acid fillers. Facial Plast Surg, 25, 324, 2009.

29.

Park

T.H.

, Seo

S.W.

, Kim

J.K.

, and Chang

C.H.

Clinical outcome in a series of 173 cases of foreign body granuloma: improved outcomes with a novel surgical technique. J Plast Reconstr Aesthet Surg, 65, 29, 2012.

30.

Park

T.H.

, Seo

S.W.

, Kim

J.K.

, and Chang

C.H.

Clinical experience with hyaluronic acid-filler complications. J Plast Reconstr Aesthet Surg, 64, 892, 2011.

31.

Alijotas-Reig

, Hindie

, Kandhaya-Pillai

, and Miro-Mur

Bioengineered hyaluronic acid elicited a nonantigenic T cell activation: implications from cosmetic medicine and surgery to nanomedicine. J Biomed Mater Res Part A, 95, 180, 2010.

32.

Kassir

, Kolluru

, and Kassir

Extensive necrosis after injection of hyaluronic acid filler: case report and review of the literature. J Cosmet Dermatol, 10, 224, 2011.

33.

Beleznay

, Carruthers

J.D.

, Humphrey

, and Jones

Avoiding and treating blindness from fillers: a review of the world literature. Dermatol Surg, 41, 1097, 2015.

34.

Kim

W.B.

, and Alhusayen

R.O.

Skin necrosis from intra-articular hyaluronic acid injection. J Cutan Med Surg, 19, 182, 2015.

35.

Carruthers

J.D.

, Fagien

, Rohrich

R.J.

, Weinkle

, and Carruthers

Blindness caused by cosmetic filler injection: a review of cause and therapy. Plast Reconstr Surg, 134, 1197, 2014.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

2.13 MB

0.44 MB

0.14 MB

0.09 MB

0.00 MB

Injectable Shape-Memorizing Three-Dimensional Hyaluronic Acid Cryogels for Skin Sculpting and Soft Tissue Reconstruction

Abstract

Introduction:

Materials

Results:

Conclusion:

Get full access to this article

References

Supplementary Material