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Materials and Methods
Many Placental Tissue-Derived Products are Currently
Marketed as “Stem Cell Therapy”
Do Placental Tissue-Derived Products Contain
Plastic-Adherent, Multipotent Stem Cells?
Can Placental Tissue-Derived Products Help the
Culture of Human Mesenchymal Stem Cells?
In Vitro Evaluation of Injectable, Placental Tissue-Derived
Products for Interventional Orthopedics Dustin R. Berger1,2, Nicolette F. Lyons3, and Neven J. Steinmetz3
1Interventional Orthopedics Foundation 2School of Biomedical Engineering, Colorado State University 3Regenerative Sciences
Background Information
Significance and Conclusions
Growth Factor Content of Two Placental Tissue-
Derived Products Vs. Pooled Human Platelet Lysate
References: 1.) Niknejad, et al. Proper/es of the amnio/c membrane for poten/al use in /ssue engineering. European Cells and Materials 15, 88-‐99 (2008). 2.) Gruss, J. S. & Jirsch, D. W. Human amnio/c membrane: a versa/le wound dressing. Canadian Medical Associa4on Journal (1978). 3.) Koob, et al. Biological proper/es of dehydrated human amnion/chorion composite graS: implica/ons for chronic wound healing. Interna4onal Wound Journal 10, 493 (2013).
4.) Massee, M. et al. Dehydrated human amnion/chorion membrane regulates stem cell ac/vity in vitro. Journal of Biomedical Materials Research Part B: Applied Biomaterials (2015). 5.) Zhou, et al. Amnio/c fluid‑derived mesenchymal stem cells: characteris/cs and therapeu/c applica/ons. Archives of Gynecology and Obstetrics 290, 223 (2014). 6.) Shapiro, J. K. & Wesoloski, B. J. FDA's Regulatory Scheme for Human Tissue. A Brief Overview. FDLI Update (2007).
Pre-‐W
ash
Post-‐W
ash
A.
Insert Quansys Growth Factor Data
(Angiogenesis Plate) from BioD
Restore, Ova/on, and Pooled
Platelet Lysate Here…
Product Pla:ng: Placental /ssue-‐derived products (AmnioFix Sports Med, BioDRestore, FloGraS
Freedom, and Ova/on Cellular Repair Matrix) were recons/tuted or thawed following the supplied
manufacturer’s recommended protocols and diluted 1:10 (v/v) in Complete Culture Medium (CCM).
Products were plated in 24-‐well plates and were allowed 48 hours of incuba/on for cell afachment.
Images were taken via phase contrast microscopy before and aSer washing wells with phosphate
buffered saline (PBS). Afached par/cles were subsequently monitored for cellular outgrowth.
Flow Cytometry: Products were treated with 10% collagenase and hyaluronidase for two hours to
help eliminate extracellular matrix proteins from the analysis. Following enzyma/c diges/on, the contents
of each product were pelleted and resuspended in phosphate buffered saline. Forward scafer vs. side
scafer plots were generated from 200,000 events collected using a BD Accuri C6 flow cytometer.
Cell Culture: Passage 2 bone marrow-‐derived human mesenchymal stem cells (hMSCs) from three
donors, two females (ages 47 and 73) and one male (age 53), were plated in CCM within 96-‐well plates
and were allowed 24 hours for cell afachment. Pla/ng medium was aspirated, and placental /ssue-‐
derived products, diluted 1:10 (v/v) in CCM or Serum-‐Free medium, were added to the cultures.
Quan/fica/on of reac/ve oxygen species (DCFDA) was performed 24 hours aSer introduc/on of the
placental /ssue-‐derived products, while quan/fica/on of DNA (PicoGreen) was performed aSer 72 hours.
B. C.
1000 µm A.
D.
(A) Phase contrast microscopy images of placental /ssue-‐derived products taken
48 hours following product pla/ng. Representa/ve images are indica/ve of the
large varia/on in par/culate content observed within the four tested products
(upper row, 40X magnifica:on) and the morphological characteris/cs of the
afached elements (lower row, 200X magnifica:on). Ova/on Cellular Repair
Matrix did contain one adhered element exhibi/ng typical cellular morphology*;
however, no prolifera/on was observed (inset). (B) Moreover, forward scafer
(size) vs. side scafer (granularity) plots from flow cytometry analyses of placental
/ssue-‐derived products show an absence of clearly defined cell popula/ons.
(C) Typical forward scafer vs. side scafer plots obtained from flow cytometry
analyses of bone marrow mononuclear cells (BMMCs) and cultured hMSCs.
B.
(B) hMSC prolifera/on as assessed by double-‐stranded DNA Quan/fica/on via PicoGreen following 72
hours of culture. (C) The genera/on of reac/ve oxygen species as assessed by DCFDA oxida/on following
24 hours of culture. (D) The effect of medium composi/on (serum-‐free vs pHPL containing medium) on
hMSC prolifera/on and reac/ve oxygen species genera/on. Significant differences between experimental
condi/ons were only observed when serum-‐free medium was used. (* P<0.05, ** P<0.001).
Placental Tissue-‐Derived Product Adherent Cells
Present?
Culture
Expandable?
Increased Cellular
Prolifera:on?
Increased ROS
Levels?
AmnioFix Injectable No No Yes Yes
BioDRestore No No Yes No
FloGraS Freedom No No No No
Ova/on Cellular Repair Matrix Yes* No No Yes
The placental /ssue-‐derived products tested:
• Do not likely contain viable stem cells once they are thawed per the manufacturer's recommenda/ons.
• Do likely contain some ac/ve growth factors that may have posi/ve effects on hMSC prolifera/on
(AmnioFix Sports Med and BioDRestore) in serum-‐free media condi/ons. However, when cultured with
pHPL, there were no significant differences between any of the products tested.
• Do not generally help hMSCs show less oxida/ve stress. In fact, two tested products were shown to
increase the presence of reac/ve oxygen species (AmnioFix Sports Med and Ova/on Cellular Repair
Matrix) when cultured in serum-‐free media condi/ons. Again, there were no significant differences
between condi/ons when cultured with pHPL.
Placental /ssue-‐derived products, obtained from amnio/c fluid and the amnio/c/chorionic membrane,
have been recently touted as effec/ve orthobiologics in promo/ng the repair and regenera/on of soS
/ssue injuries. The amnio/c membrane is well known to have beneficial characteris/cs for homologous
use, including an/-‐inflammatory, an/-‐microbial, an/-‐fibro/c, and low immunogenic proper/es1. Freshly
harvested membrane has been reported to func/on as a versa/le, temporary wound covering, providing
dis/nct advantages compared with other biological dressings2. Moreover, when dehydrated, the
amnio/c/chorionic membrane retains biologically ac/ve growth factors, and promotes the migra/on and
prolifera/on of human bone marrow-‐derived mesenchymal stem cells (hMSCs) in vitro3,4. Placental
/ssues could provide an alterna/ve source for stem cells, as those isolated from amnio/c fluid and
membranes have been reported to have many of the same quali/es as hMSCs5.
A current trend in placental /ssue-‐derived products is the microniza/on of the amnio/c membrane to
facilitate needle-‐based delivery. These “morselized”, flowable products exist in a dehydrated or
cryopreserved state, and are classified as 361 Human Cellular and Tissue Based Products (HCT/Ps), as
defined by US FDA 21 CFR Part 1271. According to Part 1271.10(a), a 361 HCT/P must not be dependent
the metabolic ac/vity of living cells6. However, many of these products are currently marketed as a form
of stem cell therapy, implying the existence of viable cells. Here, we test several placental /ssue-‐derived
products for the presence of stem cells and their ability to modulate in vitro cultures of hMSCs.
hfp://vistahealthcenter.com/bio-‐d-‐treatment/
hfps://www.appliedbiologics.com/product-‐showcase/flograS-‐freedom-‐sports-‐injury/
hfp://progressivespineandsports.com/regenera/ve-‐treatments/
hfps://huebertssc.com/services/stem-‐cell-‐amnio/
hfp://discovery.lifemapsc.com/regenera/ve-‐medicine/cell-‐therapy-‐applica/ons/bone-‐ova/on-‐mesenchymal-‐stem-‐cells-‐for-‐bone-‐repair
Representa/ve phase contrast microscopy images
of hMSCs from a single donor cultured within
placental /ssue-‐derived products 48 hours aSer
product addi/on (A). Cell morphology may be
compared against hMSCs grown in the absence of
placental /ssue-‐derived products (lower leZ).
CCM Formula:on:
81.5% αMEM
16.5% pHPL
1% L-‐Glutamine
1% An/bio/cs
1000 µm
1000 µm
1000 µm 1000 µm 1000 µm
Gowth Factor BioDRestore*
(pg/mL)
Ova:on Matrix
(pg/mL)
pHPL
(pg/mL)
Angiopoie/n-‐2 (Ang-‐2) <13.3 <13.3 143.2
Fibroblast Growth Factor Basic (bFGF) <61.4 2,880.1 <61.4
Hepatocyte Growth Factor (HGF) 476.2 8,681.3 197.8
Interleukin-‐8 (IL-‐8) <9.3 >4,400.0 <9.3
Platelet Derived Growth Factor-‐BB (PDGF-‐BB) <5.5 133.3 1,099.2
Tissue Inhibitor of Metalloproteinase-‐1 (TIMP-‐1) 4,533.2 >24,000.0 >24,000.0
Tissue Inhibitor of Metalloproteinase-‐2 (TIMP-‐2) 3,210.5 4,673.3 22,776.2
Transforming Growth Factor Beta (TGFβ) 10,063.4 16,539.9 30,687.6
Vascular Endothelial Growth Factor (VEGF) <3.0 11.4 56.0
Quan/fica/on of a subset of growth factors present in
BioDRestore, Ova/on Cellular Repair Matrix, and pooled
human platelet lysate (pHPL) using a mul/plexed ELISA array
(Quansys Biosciences). pHPL had the highest detectable
amounts for five of nine growth factors assessed (Ang-‐2, PDGF,
TIMP-‐2, TGFβ, and VEGF), while Ova/on Matrix had the
highest amounts in three of nine (bFGF, HGF, and IL-‐8).
Platelet Lysate
C.
Pooled Human Platelet Lysate (pHPL):
Pooled from n = 5 Donors, Ages 26 – 68 Years
Pooling Freeze Centrifuge
X2 >4,000 x g
Plasma
pHPL
Discard
Seed hMSCs from 3
Donors in Complete
Culture Medium at High
and Low Densi/es
Add Amnio/c
Products 1:10 in
Complete Culture
Medium or Serum-‐
Free Medium
Incubate High Density
Cultures with DCFDA for
45 Minutes, Wash,
Read Fluorescence
(Ex. 485nm/Em. 538nm)
Wash, Lyse and Extract DNA from Low
Density Cultures, Stain with PicoGreen
Read Fluorescence (Ex. 485nm/Em. 538nm)
24 Hours 48 Hours 24 Hours
SF M
ediu
m
Am
nioFix
Bio
DRes
tore
FloG
raft
Ova
tion
CCM
Am
nioFix
Bio
DRes
tore
FloG
raft
Ova
tion
0
1
2
3
4
Fo
ld C
ha
ng
e in
RO
S A
ctiv
ity
(No
rma
lize
d to
Re
sp
ec
tiv
e M
ed
ium
)
**
**
Serum-Free pHPL
Ser
um-F
ree
Med
ium
Am
nioFix
Sport
s M
ed
Bio
DRes
tore
FloG
raft F
reed
om
Ova
tion R
epai
r M
atrix
Com
plete
Cultu
re M
ediu
m
0
100
200
300
400
500
Flu
ore
sc
en
ce
Inte
ns
ity
(a
.u.)
DNA Quantification (PicoGreen)
**
**
**
*
Ser
um-F
ree
Med
ium
Am
nioFix
Sport
s M
ed
Bio
DRes
tore
FloG
raft F
reed
om
Ova
tion R
epai
r M
atrix
Com
plete
Cultu
re M
ediu
m
Free
Rad
ical
Contr
ol0
2,000
4,000
6,000
8,000
10,000
20,000
40,000
Flu
ore
sc
en
ce
Inte
ns
ity
(a
.u.)
Reactive Oxygen Species (DCFDA)
**
**
*
*
SF M
ediu
m
Am
nioFix
Bio
DRes
tore
FloG
raft
Ova
tion
CCM
Am
nioFix
Bio
DRes
tore
FloG
raft
Ova
tion
0
1
2
3
6
8
10
12
Fo
ld C
ha
ng
e in
DN
A C
on
ten
t(N
orm
aliz
ed
to
Re
sp
ec
tiv
e M
ed
ium
)
**
**
*
Serum-Free pHPL
*Note: BioDRestore was subjected to an addi:onal freeze/thaw cycle prior to quan:fying growth factors