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<script type="text/javascript" src="/corehtml/pmc/jatsreader/ptpmc_3.22/js/jr.boots.min.js"> </script><title>Analysis of Nanoparticle Effects on Invasion of Cancer Cells - National Cancer Institute’s Nanotechnology Characterization Laboratory Assay Cascade Protocols - NCBI Bookshelf</title>
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<meta name="citation_inbook_title" content="National Cancer Institute’s Nanotechnology Characterization Laboratory Assay Cascade Protocols [Internet]">
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<meta name="citation_title" content="Analysis of Nanoparticle Effects on Invasion of Cancer Cells">
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<meta name="citation_publisher" content="National Cancer Institute (US)">
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<meta name="citation_date" content="2020/05">
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<meta name="citation_author" content="Julia Bui">
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<meta name="citation_author" content="Edward Cedrone">
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<meta name="citation_author" content="Naichen Yu">
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<meta name="citation_author" content="Marina A. Dobrovolskaia">
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<meta name="citation_pmid" content="39012996">
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<meta name="citation_doi" content="10.17917/GS4C-N171">
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<meta name="citation_fulltext_html_url" content="https://www.ncbi.nlm.nih.gov/books/NBK604952/">
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<meta name="DC.Title" content="Analysis of Nanoparticle Effects on Invasion of Cancer Cells">
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<meta name="DC.Contributor" content="Julia Bui">
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<meta name="DC.Contributor" content="Edward Cedrone">
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<meta name="DC.Contributor" content="Naichen Yu">
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<meta name="DC.Contributor" content="Marina A. Dobrovolskaia">
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<meta name="og:description" content="This document provides a protocol for a real-time, quantitative assessment of nanoparticle-mediated inhibition of cancer cell invasion. Although processes of cell migration and invasion have similar properties, they can be differentiated based on the ability of invasive cells to migrate through either an extracellular matrix (ECM) or a basement membrane extract (BME). This protocol uses Matrigel as an extracellular matrix and analyzes the number of cells migrating through the Matrigel and porous membrane barriers with or without prior exposure to test nanoparticles. Nanoparticles, which intended mechanism of action involves the inhibition of cancer cell invasion, will result in a decrease in the number of cells migrated through these barriers.">
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110,110-26,26-110-110"></path></svg></a><a id="jr-fip-done" class="wsprkl btn" title="Dismiss find">✘</a></nav><nav id="jr-fip-info-p"><a id="jr-fip-prev" class="wsprkl btn" title="Jump to previuos match">◀</a><button id="jr-fip-matches">no matches yet</button><a id="jr-fip-next" class="wsprkl btn" title="Jump to next match">▶</a></nav></nav></div><div id="jr-epub-interstitial" class="hidden"></div><div id="jr-content"><article data-type="main"><div class="main-content lit-style" itemscope="itemscope" itemtype="http://schema.org/CreativeWork"><div class="meta-content fm-sec"><div class="fm-sec"><h1 id="_NBK604952_"><span class="label">NCL Method IEA-1</span><span class="title" itemprop="name">Analysis of Nanoparticle Effects on Invasion of Cancer Cells</span></h1><div class="subtitle whole_rhythm">Version 1.0</div><p class="contribs">Bui J, Cedrone E, Yu N, et al.</p><p class="fm-aai"><a href="#_NBK604952_pubdet_">Publication Details</a></p></div></div><div class="jig-ncbiinpagenav body-content whole_rhythm" data-jigconfig="allHeadingLevels: ['h2'],smoothScroll: false" itemprop="text"><div id="ncipr34.s1"><h2 id="_ncipr34_s1_">1. Introduction</h2><p>This document provides a protocol for a real-time, quantitative assessment of nanoparticle-mediated inhibition of cancer cell invasion. Although processes of cell migration and invasion have similar properties, they can be differentiated based on the ability of invasive cells to migrate through either an extracellular matrix (ECM) or a basement membrane extract (BME). This protocol uses Matrigel as an extracellular matrix and analyzes the number of cells migrating through the Matrigel and porous membrane barriers with or without prior exposure to test nanoparticles. Nanoparticles, which intended mechanism of action involves the inhibition of cancer cell invasion, will result in a decrease in the number of cells migrated through these barriers.</p></div><div id="ncipr34.s2"><h2 id="_ncipr34_s2_">2. Principles</h2><p>This assay uses human breast cancer cells, MDA-MB-231, as a model cell line. The cells are separated from control chemoattractant and test-nanoparticles by an 8 µm filter and an extracellular matrix. The cell migration through the filter is then monitored using a label-free technology developed by ACEA Biosciences, wherein cell attachment to gold electrodes on the underside of the filter results in a change in the impedance. This is subsequently converted into the cell index, which is proportional to the number of cells migrated through the filter. Schematics and pictures showing the migration plate are provided in <a href="#ncipr34.lt54">Appendix 11.1</a>-<a href="#ncipr34.lt56">11.3</a>. While this protocol can be adapted to other cancer cell lines, additional experiments to evaluate optimal plating density would be needed.</p></div><div id="ncipr34.s3"><h2 id="_ncipr34_s3_">3. Reagents, Materials, Cell Lines, and Equipment</h2><blockquote><p><i>Note: The NCL does not endorse any of the suppliers listed below; these reagents were used in the development of the protocol and their inclusion is for informational purposes only. Equivalent supplies from alternate vendors can be substituted. Please note that suppliers may undergo a name change due to a variety of factors. Brands and part numbers typically remain consistent but may also change over time</i>.</p></blockquote><dl id="ncipr34.l1" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>3.1.</dt><dd id="ncipr34.lt1"><p class="no_top_margin">Reagents
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<dl id="ncipr34.l2" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>3.1.1.</dt><dd id="ncipr34.lt2"><p class="no_top_margin">Phosphate buffered saline (PBS) (GE Life Sciences, SH30256.01)</p></dd></dl><dl class="bkr_refwrap"><dt>3.1.2.</dt><dd id="ncipr34.lt3"><p class="no_top_margin">Fetal bovine serum (FBS) (GE Life Sciences, Hyclone, SH30070.03)</p></dd></dl><dl class="bkr_refwrap"><dt>3.1.3.</dt><dd id="ncipr34.lt4"><p class="no_top_margin">RPMI-1640 (GE Life Sciences, Hyclone, SH30096.01)</p></dd></dl><dl class="bkr_refwrap"><dt>3.1.4.</dt><dd id="ncipr34.lt5"><p class="no_top_margin">0.25% Trypsin-EDTA (Invitrogen, 25200-056)</p></dd></dl><dl class="bkr_refwrap"><dt>3.1.5.</dt><dd id="ncipr34.lt6"><p class="no_top_margin">AOPI, 5 mL (Nexelcom, CS2-0106-5ML)</p></dd></dl><dl class="bkr_refwrap"><dt>3.1.6.</dt><dd id="ncipr34.lt7"><p class="no_top_margin">L-glutamine (Hyclone, SH30034.01)</p></dd></dl><dl class="bkr_refwrap"><dt>3.1.7.</dt><dd id="ncipr34.lt8"><p class="no_top_margin">Matrigel (Corning, 354234)</p></dd></dl></dl></p></dd></dl><dl class="bkr_refwrap"><dt>3.2.</dt><dd id="ncipr34.lt9"><p class="no_top_margin">Materials
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<dl id="ncipr34.l3" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>3.2.1.</dt><dd id="ncipr34.lt10"><p class="no_top_margin">Pipettes covering the range of 0.05 to 10 mL</p></dd></dl><dl class="bkr_refwrap"><dt>3.2.2.</dt><dd id="ncipr34.lt11"><p class="no_top_margin">RTCA CIM-Plate 16 (ACEA/Agilent, 05665825001)</p></dd></dl><dl class="bkr_refwrap"><dt>3.2.3.</dt><dd id="ncipr34.lt12"><p class="no_top_margin">Polypropylene tubes 50 and 15 mL</p></dd></dl><dl class="bkr_refwrap"><dt>3.2.4.</dt><dd id="ncipr34.lt13"><p class="no_top_margin">Multichannel pipettor</p></dd></dl><dl class="bkr_refwrap"><dt>3.2.5.</dt><dd id="ncipr34.lt14"><p class="no_top_margin">Counting Chamber (Nexelcom, CHT4-SD100-014)</p></dd></dl><dl class="bkr_refwrap"><dt>3.2.6.</dt><dd id="ncipr34.lt15"><p class="no_top_margin">Eppendorf tubes, 1 mL</p></dd></dl></dl></p></dd></dl><dl class="bkr_refwrap"><dt>3.3.</dt><dd id="ncipr34.lt16"><p class="no_top_margin">Cell Line
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<dl id="ncipr34.l4" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>3.3.1.</dt><dd id="ncipr34.lt17"><p class="no_top_margin">MDA-MB-231, (ATCC, ATCC<sup>®</sup> HTB26™)</p></dd></dl></dl></p></dd></dl><dl class="bkr_refwrap"><dt>3.4.</dt><dd id="ncipr34.lt18"><p class="no_top_margin">Equipment
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<dl id="ncipr34.l5" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>3.4.1.</dt><dd id="ncipr34.lt19"><p class="no_top_margin">Centrifuge capable of operating at 400xg</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.2.</dt><dd id="ncipr34.lt20"><p class="no_top_margin">Refrigerator, 2-8ºC</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.3.</dt><dd id="ncipr34.lt21"><p class="no_top_margin">Freezer, −20ºC</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.4.</dt><dd id="ncipr34.lt22"><p class="no_top_margin">Cell culture incubator with 5% CO<sub>2</sub> and 95% humidity</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.5.</dt><dd id="ncipr34.lt23"><p class="no_top_margin">Biohazard safety cabinet approved for level II handling of biological material</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.6.</dt><dd id="ncipr34.lt24"><p class="no_top_margin">Inverted microscope</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.7.</dt><dd id="ncipr34.lt25"><p class="no_top_margin">Vortex</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.8.</dt><dd id="ncipr34.lt26"><p class="no_top_margin">Cellometer Auto 2000 Cell Counter, (Nexelcom)</p></dd></dl><dl class="bkr_refwrap"><dt>3.4.9.</dt><dd id="ncipr34.lt27"><p class="no_top_margin">xCELLigence<sup>®</sup> RTCA DP Instrument <u>(ACEA/Agilent, 00380601050)</u></p></dd></dl></dl></p></dd></dl></dl></div><div id="ncipr34.s4"><h2 id="_ncipr34_s4_">4. Reagent and Control Preparation</h2><dl id="ncipr34.l6" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>4.1.</dt><dd id="ncipr34.lt28"><p class="no_top_margin">
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<u>Complete RPMI-1640 medium</u>
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</p><p>The complete RPMI medium should contain the following reagents:
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<ul id="ncipr34.l7" class="simple-list"><li id="ncipr34.lt29" class="half_rhythm"><div>10% FBS (heat inactivated)</div></li><li id="ncipr34.lt30" class="half_rhythm"><div>4 mM L-glutamine</div></li></ul></p><p>Store at 2-8ºC protected from light for no longer than 1 month. Before use, warm in a water bath.</p></dd></dl><dl class="bkr_refwrap"><dt>4.2.</dt><dd id="ncipr34.lt31"><p class="no_top_margin">
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<u>Starvation Media (SM)</u>
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</p><p>The starvation RPMI medium should contain the following reagents:
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<ul id="ncipr34.l8" class="simple-list"><li id="ncipr34.lt32" class="half_rhythm"><div>1% FBS</div></li><li id="ncipr34.lt33" class="half_rhythm"><div>4 mM L-glutamine</div></li></ul></p><p>Store at 2-8°C protected from light for no longer than 1 month. Before use, warm the medium in a water bath.</p></dd></dl><dl class="bkr_refwrap"><dt>4.3.</dt><dd id="ncipr34.lt34"><p class="no_top_margin">
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<u>Heat-inactivated fetal bovine serum</u>
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</p><p>Thaw a bottle of FBS at room temperature, or overnight at 2-8ºC and allow to equilibrate to room temperature. Incubate 30 minutes at 56ºC in a water bath mixing every 5 minutes. Single-use aliquots may be stored at 2-8ºC for up to one month or at a nominal temperature of −20ºC indefinitely.</p></dd></dl><dl class="bkr_refwrap"><dt>4.4.</dt><dd id="ncipr34.lt35"><p class="no_top_margin">
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<u>Negative Control</u>
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</p><p>Use starvation medium as a negative control. Process this control the same way as the study samples.</p></dd></dl><dl class="bkr_refwrap"><dt>4.5.</dt><dd id="ncipr34.lt36"><p class="no_top_margin">
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<u>Positive Control, Complete RPMI-1640 medium</u>
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</p><p>Use growth medium as a positive control. Process this control the same way as the study samples.</p></dd></dl></dl></div><div id="ncipr34.s5"><h2 id="_ncipr34_s5_">5. Preparation of Study Samples</h2><p>This assay requires 2.4 mL of nanoparticles, at 1X the highest final tested concentration dissolved/resuspended in starvation medium. The concentration is selected based on the plasma concentration of the nanoparticle at the intended therapeutic dose. For the purpose of this protocol this concentration is called “theoretical plasma concentration”. Considerations for estimating theoretical plasma concentration were reviewed elsewhere [<a class="bibr" href="#ncipr34.ref1" rid="ncipr34.ref1">1</a>] and are summarized in <a href="/books/NBK604952/box/ncipr34.box1/?report=objectonly" target="object" rid-ob="figobncipr34box1">Box 1</a> below.</p><p>The assay will evaluate 4 concentrations: 10 X (or when feasible 100X, 30X or 5X) of the theoretical plasma concentration, theoretical plasma concentration and two 1:5 serial dilutions of the theoretical plasma concentration. When the intended therapeutic concentration is unknown, the highest final concentration is 1 mg/mL or the highest reasonably achievable concentration. For example, if the final theoretical plasma concentration to be tested is 0.2 mg/mL, then a stock of 2 mg/mL will be prepared and diluted 10-fold (0.2 mg/mL), followed by two 1:5 serial dilutions (0.04 and 0.008 mg/mL). Use 160 μL of each of these samples per well. Each nanoparticle concentration is plated 3 times.</p><div id="ncipr34.box1" class="box boxed-text-box whole_rhythm hide-overflow"><h3><span class="label">Box 1</span><span class="title">Example Calculation to Determine Nanoparticle Concentration for In Vitro Tests</span></h3><p>In this example, we assume a mouse dose of 123 mg/kg. Therefore, the scaled equivalent human dose would be:
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<div class="pmc_disp_formula whole_rhythm clearfix" id="ncipr34.deq1"><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow twelve_col"><math id="ncipr34.eq1" display="block"><mi>H</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>d</mi><mi>o</mi><mi>s</mi><mi>e</mi><mo>=</mo><mfrac><mrow><mi>m</mi><mi>o</mi><mi>u</mi><mi>s</mi><mi>e</mi><mtext> </mtext><mi>d</mi><mi>o</mi><mi>s</mi><mi>e</mi></mrow><mrow><mn>12.3</mn></mrow></mfrac><mo>=</mo><mfrac><mrow><mn>123</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>k</mi><mi>g</mi></mrow><mrow><mn>12.3</mn></mrow></mfrac><mo>=</mo><mn>10</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>k</mi><mi>g</mi></math></div><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow last bk_equ_label "><div><span class="nowrap"></span></div></div></div>
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Blood volume constitutes approximately 8% of the body weight. Therefore, an average human of 70 kg body weight has approximately 5.6 L of blood. Assuming all the nanoparticle injected goes into the systemic circulation, this provides a rough approximation of the potential maximum nanoparticle concentration in blood, which is used as the in vitro test concentration.</p><div class="pmc_disp_formula whole_rhythm clearfix" id="ncipr34.deq2"><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow twelve_col">
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<math id="ncipr34.eq2" display="block"><mi>i</mi><mi>n</mi><mtext> </mtext><mi>v</mi><mi>i</mi><mi>t</mi><mi>r</mi><mi>o</mi><mtext> </mtext><mi>c</mi><mi>o</mi><mi>n</mi><mi>c</mi><mi>e</mi><mi>n</mi><mi>t</mi><mi>r</mi><mi>a</mi><mi>t</mi><mi>i</mi><mi>o</mi><msub><mi>n</mi><mrow><mi>h</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>m</mi><mi>a</mi><mi>t</mi><mi>r</mi><mi>i</mi><mi>x</mi></mrow></msub><mo>=</mo><mfrac><mrow><mi>h</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>d</mi><mi>o</mi><mi>s</mi><mi>e</mi></mrow><mrow><mi>h</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>b</mi><mi>l</mi><mi>o</mi><mi>o</mi><mi>d</mi><mtext> </mtext><mi>v</mi><mi>o</mi><mi>l</mi><mi>u</mi><mi>m</mi><mi>e</mi></mrow></mfrac><mo>=</mo><mfrac><mrow><mn>70</mn><mtext> </mtext><mi>k</mi><mi>g</mi><mtext> </mtext><mo>∗</mo><mtext> </mtext><mn>10</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>k</mi><mi>g</mi></mrow><mrow><mn>5.6</mn><mtext> </mtext><mi>L</mi></mrow></mfrac><mo>=</mo><mn>0.125</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>m</mi><mi>L</mi></math>
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</div><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow last bk_equ_label "><div><span class="nowrap"></span></div></div></div></div></div><div id="ncipr34.s6"><h2 id="_ncipr34_s6_">6. MDA-MB-231 Cell Preparation</h2><p>MDA-MB-231 is a human breast cancer cell line derived from a metastatic site. Cultures can be maintained by subculture at a ratio of 1:5 to 1:10. Do not allow cells to become confluent. Cell morphology should have a flat, epithelial appearance, if grown under optimal conditions.</p><dl id="ncipr34.l9" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>6.1.</dt><dd id="ncipr34.lt37"><p class="no_top_margin">Expand cells until they are approximately 60-70% confluent. The day before the experiment, change the medium from normal growth medium to starvation medium and incubate overnight (16 – 18 hr).</p></dd></dl><dl class="bkr_refwrap"><dt>6.2.</dt><dd id="ncipr34.lt38"><p class="no_top_margin">On the day of the experiment, count cells using AOPI and adjust concentration to 4x10<sup>5</sup>
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<b><u>viable</u></b> cells/mL in Starvation Medium.</p></dd></dl></dl></div><div id="ncipr34.s7"><h2 id="_ncipr34_s7_">7. Matrigel Coating of the Upper Chamber of CIM-Plate 16</h2><p>
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<i>The day prior to the experiment, place pipette tips, Eppendorf tubes, and the upper chamber of the CIM-Plate 16 at 4°C to cool.</i>
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</p><dl id="ncipr34.l10" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>7.1.</dt><dd id="ncipr34.lt39"><p class="no_top_margin">Dilute the Matrigel with pre-cooled SFM on ice in pre-cooled Eppendorf tubes. Approximately 1 mL of diluted Matrigel is needed to coat all 16 wells of the upper chamber of a CIM-Plate 16.</p></dd></dl><dl class="bkr_refwrap"><dt>7.2.</dt><dd id="ncipr34.lt40"><p class="no_top_margin">Dilute Matrigel with cold SFM to a concentration of 800 μg/mL, being careful to maintain the Matrigel solution on ice to avoid polymerization.</p></dd></dl><dl class="bkr_refwrap"><dt>7.3.</dt><dd id="ncipr34.lt41"><p class="no_top_margin">Add 50 μL of Matrigel solution into each well of the upper chamber. Gently tap the plate the ensure the Matrigel evenly covers the entire surface of each well.</p></dd></dl><dl class="bkr_refwrap"><dt>7.4.</dt><dd id="ncipr34.lt42"><p class="no_top_margin">Remove 30 μL of the nascent Matrigel solution from each well, leaving the remaining 20 μL to coat the membrane surface of each well.</p><p><b>Note</b>: When removing the 30 μL of Matrigel, insert pipette tip into the well as far as possible without touching the membrane; withdraw the Matrigel slowly. Be careful to not introduce air bubbles during this step.</p></dd></dl><dl class="bkr_refwrap"><dt>7.5.</dt><dd id="ncipr34.lt43"><p class="no_top_margin">Place upper chamber in 37°C incubator for 4 hours.</p></dd></dl></dl></div><div id="ncipr34.s8"><h2 id="_ncipr34_s8_">8. Experimental Procedure</h2><p>
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<i>The procedure described below is based on <a class="bibr" href="#ncipr34.ref2" rid="ncipr34.ref2">reference 2</a>.</i>
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</p><dl id="ncipr34.l11" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>8.1.</dt><dd id="ncipr34.lt44"><p class="no_top_margin">Add 160 µL of growth medium in the bottom chamber of the CIM-Plate 16 (a meniscus should be formed at the top of each well, see <a class="figpopup" href="/books/NBK604952/figure/ncipr34.app.fig3/?report=objectonly" target="object" rid-figpopup="figncipr34appfig3" rid-ob="figobncipr34appfig3">figures</a> in <a href="#ncipr34.lt56">Appendix 11.3</a>).</p></dd></dl><dl class="bkr_refwrap"><dt>8.2.</dt><dd id="ncipr34.lt45"><p class="no_top_margin">Attach the Matrigel-coated upper chamber of the CIM-Plate 16, carefully to avoid bubbles.</p></dd></dl><dl class="bkr_refwrap"><dt>8.3.</dt><dd id="ncipr34.lt46"><p class="no_top_margin">Add 30 µL of starvation medium to all 16 wells of the top chamber.</p></dd></dl><dl class="bkr_refwrap"><dt>8.4.</dt><dd id="ncipr34.lt47"><p class="no_top_margin">Place the chamber(s) into the RTCA DP instrument according to the experimental plan and allow medium/test reagents to equilibrate for 60 minutes.</p></dd></dl><dl class="bkr_refwrap"><dt>8.5.</dt><dd id="ncipr34.lt48"><p class="no_top_margin">Perform a background read.</p></dd></dl><dl class="bkr_refwrap"><dt>8.6.</dt><dd id="ncipr34.lt49"><p class="no_top_margin">Remove the plate from the instrument and add 100 µL of the cell suspension to the top wells.</p></dd></dl><dl class="bkr_refwrap"><dt>8.7.</dt><dd id="ncipr34.lt50"><p class="no_top_margin">Allow the cells to settle in the wells at RT for 30 minutes before replacing on the instrument.</p></dd></dl><dl class="bkr_refwrap"><dt>8.8.</dt><dd id="ncipr34.lt51"><p class="no_top_margin">Place chamber(s) in the instrument and start the protocol (see <a href="/books/NBK604952/table/ncipr34.app.tab1/?report=objectonly" target="object" rid-ob="figobncipr34apptab1">instrument settings</a> in <a href="#ncipr34.lt57">Appendix 11.4</a>).</p></dd></dl><dl class="bkr_refwrap"><dt>8.9.</dt><dd id="ncipr34.lt52"><p class="no_top_margin">Acquire data for 24-48 hours.</p></dd></dl></dl></div><div id="ncipr34.s9"><h2 id="_ncipr34_s9_">9. Calculations</h2><dl id="ncipr34.l12" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>9.1.</dt><dd id="ncipr34.lt53"><p class="no_top_margin">Calculate area under the curve (AUC) for the control and test samples using instrument software or Excel then compare the AUC of the test samples to that of the control sample. Use statistical analysis to evaluate the significance of the observed difference.</p></dd></dl></dl></div><div id="ncipr34.rl.r1"><h2 id="_ncipr34_rl_r1_">10. References</h2><dl class="temp-labeled-list"><dl class="bkr_refwrap"><dt>1.</dt><dd><div class="bk_ref" id="ncipr34.ref1">Dobrovolskaia
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MA, McNeil
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SE. Understanding the correlation between in vitro and in vivo immunotoxicity tests for nanomedicines. J Control Release. 2013;172(2):456–66.
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[<a href="/pmc/articles/PMC5831149/" ref="pagearea=cite-ref&targetsite=entrez&targetcat=link&targettype=pmc">PMC free article<span class="bk_prnt">: PMC5831149</span></a>] [<a href="https://pubmed.ncbi.nlm.nih.gov/23742883" ref="pagearea=cite-ref&targetsite=entrez&targetcat=link&targettype=pubmed">PubMed<span class="bk_prnt">: 23742883</span></a>]</div></dd></dl><dl class="bkr_refwrap"><dt>2.</dt><dd><div class="bk_ref" id="ncipr34.ref2">xCELLigence<sup>®</sup> Real-Time Cell Analysis (CIM Protocol). Using the xCELLigence<sup>®</sup> RTCA DP Instrument to perform Cell Invasion and Migration (CIM) Assays, ACEA Biosciences
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2015</div></dd></dl><dl class="bkr_refwrap"><dt>3.</dt><dd><div class="bk_ref" id="ncipr34.ref3">Corning Life Sciences. Cell Migration, Chemotaxis and Invasion Assay Protocol. Corning Incorporated.</div></dd></dl></dl></div><div id="ncipr34.app"><h2 id="_ncipr34_app_">11. Appendix</h2><p>Images shown in <a class="figpopup" href="/books/NBK604952/figure/ncipr34.app.fig1/?report=objectonly" target="object" rid-figpopup="figncipr34appfig1" rid-ob="figobncipr34appfig1">Figures 11.1</a>-<a class="figpopup" href="/books/NBK604952/figure/ncipr34.app.fig3/?report=objectonly" target="object" rid-figpopup="figncipr34appfig3" rid-ob="figobncipr34appfig3">11.3</a> are adopted from <a class="bibr" href="#ncipr34.ref2" rid="ncipr34.ref2">reference 2</a> with permission.</p><dl id="ncipr34.l13" class="temp-labeled-list"><dl class="bkr_refwrap"><dt>11.1.</dt><dd id="ncipr34.lt54"><p class="no_top_margin">CIM-Plate 16 Schematic</p></dd></dl><dl class="bkr_refwrap"><dt>11.2.</dt><dd id="ncipr34.lt55"><p class="no_top_margin">ACEA CIM Plate 16 images. <a class="figpopup" href="/books/NBK604952/figure/ncipr34.app.fig2/?report=objectonly" target="object" rid-figpopup="figncipr34appfig2" rid-ob="figobncipr34appfig2">Figure A</a> is the ACEA CIM-Plate 16 unassembled. <a class="figpopup" href="/books/NBK604952/figure/ncipr34.app.fig2/?report=objectonly" target="object" rid-figpopup="figncipr34appfig2" rid-ob="figobncipr34appfig2">Figure B</a> is the ACEA CIM-Plate 16 assembled.</p></dd></dl><dl class="bkr_refwrap"><dt>11.3.</dt><dd id="ncipr34.lt56"><p class="no_top_margin">Reagent loading image, plate bottom</p></dd></dl><dl class="bkr_refwrap"><dt>11.4.</dt><dd id="ncipr34.lt57"><p class="no_top_margin">Instrument settings</p></dd></dl><dl class="bkr_refwrap"><dt>11.5.</dt><dd id="ncipr34.lt58"><p class="no_top_margin">Example Graphs</p></dd></dl></dl><div id="ncipr34.app.fig1" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf1&p=BOOKS&id=604952_ncipr34appf1.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img src="/books/NBK604952/bin/ncipr34appf1.jpg" alt="CIM-Plate 16 schematic, with a cartoon depiction of the lid, cells, upper chamber, gel layer, microporous membrance, microelectrodes, adherent cell, lower chamber, and chemoattractant." class="tileshop" title="Click on image to zoom" /></a></div></div><div id="ncipr34.app.fig2" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf2&p=BOOKS&id=604952_ncipr34appf2.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img src="/books/NBK604952/bin/ncipr34appf2.jpg" alt="Image ncipr34appf2" class="tileshop" title="Click on image to zoom" /></a></div></div><div id="ncipr34.app.fig3" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf3&p=BOOKS&id=604952_ncipr34appf3.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img src="/books/NBK604952/bin/ncipr34appf3.jpg" alt="Image ncipr34appf3" class="tileshop" title="Click on image to zoom" /></a></div></div><div class="iconblock whole_rhythm clearfix ten_col table-wrap" id="figncipr34apptab1"><a href="/books/NBK604952/table/ncipr34.app.tab1/?report=objectonly" target="object" title="Table" class="img_link icnblk_img" rid-ob="figobncipr34apptab1"><img class="small-thumb" src="/corehtml/pmc/css/bookshelf/2.26/img/table-icon.gif" alt="Table Icon" /></a><div class="icnblk_cntnt"><h4 id="ncipr34.app.tab1"><a href="/books/NBK604952/table/ncipr34.app.tab1/?report=objectonly" target="object" rid-ob="figobncipr34apptab1">Table</a></h4></div></div><div id="ncipr34.app.fig4" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf4&p=BOOKS&id=604952_ncipr34appf4.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img src="/books/NBK604952/bin/ncipr34appf4.jpg" alt="Image ncipr34appf4" class="tileshop" title="Click on image to zoom" /></a></div></div></div><div id="ncipr34.s10"><h2 id="_ncipr34_s10_">12. Abbreviations</h2><dl><dt id="ncipr34.abb_DL1_DI1">CIM</dt><dd><p>cell invasion/migration</p></dd><dt id="ncipr34.abb_DL1_DI2">CV</dt><dd><p>coefficient of variation</p></dd><dt id="ncipr34.abb_DL1_DI3">FBS</dt><dd><p>fetal bovine serum</p></dd><dt id="ncipr34.abb_DL1_DI4">PBS</dt><dd><p>phosphate buffered saline</p></dd><dt id="ncipr34.abb_DL1_DI5">RTCA</dt><dd><p>Real-Time Cell Analysis</p></dd><dt id="ncipr34.abb_DL1_DI6">SD</dt><dd><p>standard deviation</p></dd><dt id="ncipr34.abb_DL1_DI7">SM</dt><dd><p>starvation media</p></dd><dt id="ncipr34.abb_DL1_DI8">VC</dt><dd><p>vehicle control</p></dd></dl></div><div><dl class="temp-labeled-list small"><dl class="bkr_refwrap"><dt></dt><dd><div><p class="no_top_margin"><p>This protocol assumes an intermediate level of scientific competency with regard to techniques, instrumentation, and safety procedures. Rudimentary assay details have been omitted for the sake of brevity.</p></p></div></dd></dl><dl class="bkr_refwrap"><dt>*</dt><dd><div id="ncipr34.fn1"><p class="no_top_margin">address correspondence to: <a href="mailto:dev@null" data-email="vog.hin.liam@aniram" class="oemail">vog.hin.liam@aniram</a></p></div></dd></dl><dl class="bkr_refwrap"><dt></dt><dd><div><p class="no_top_margin"><div>
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<span class="mixed-citation" id="ncipr34.suggestedcitation">Bui J, Cedrone E, Yu N, Dobrovolskaia MA, NCL Method IEA-1: Analysis of nanoparticle effects on invasion of cancer cells. <a href="https://ncl.cancer.gov/resources/assay-cascade-protocols" ref="pagearea=body&targetsite=external&targetcat=link&targettype=uri">https://ncl.cancer.gov/resources/assay-cascade-protocols</a> DOI: <a href="http://dx.crossref.org/10.17917/GS4C-N171" ref="pagearea=body&targetsite=external&targetcat=link&targettype=uri">10.17917/GS4C-N171</a></span>
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</div></p></div></dd></dl></dl></div><div style="display:none"><div style="display:none" id="figncipr34appfig1"><img alt="Image ncipr34appf1" src-large="/books/NBK604952/bin/ncipr34appf1.jpg" /></div><div style="display:none" id="figncipr34appfig2"><img alt="Image ncipr34appf2" src-large="/books/NBK604952/bin/ncipr34appf2.jpg" /></div><div style="display:none" id="figncipr34appfig3"><img alt="Image ncipr34appf3" src-large="/books/NBK604952/bin/ncipr34appf3.jpg" /></div></div><div id="bk_toc_contnr"></div></div></div><div class="fm-sec"><h2 id="_NBK604952_pubdet_">Publication Details</h2><h3>Author Information and Affiliations</h3><p class="contrib-group"><h4>Authors</h4><span itemprop="author">Julia Bui</span>,<sup>1</sup> <span itemprop="author">Edward Cedrone</span>,<sup>1</sup> <span itemprop="author">Naichen Yu</span>,<sup>2</sup> and <span itemprop="author">Marina A. Dobrovolskaia</span><sup><img src="/corehtml/pmc/pmcgifs/corrauth.gif" alt="corresponding author" /></sup><sup>1</sup>.</p><h4>Affiliations</h4><div class="affiliation"><sup>1</sup> Nanotechnology Characterization Lab, Cancer Research Technology Program, Frederick National Laboratory for Cancer Research sponsored by the National Cancer Institute, Frederick, MD 21702<div><span class="email-label">Email: </span><a href="mailto:dev@null" data-email="vog.hin.liam@aniram" class="oemail">vog.hin.liam@aniram</a></div></div><div class="affiliation"><sup>2</sup> ACEA Biosciences, Cell Analysis Division, Agilent Technologies, Inc. San Diego, CA 92121</div><div><sup><img src="/corehtml/pmc/pmcgifs/corrauth.gif" alt="corresponding author" /></sup>Corresponding author.</div><h3>Publication History</h3><p class="small">Published: <span itemprop="datePublished">May 2020</span>.</p><h3>Copyright</h3><div><div class="half_rhythm"><a href="/books/about/copyright/">Copyright Notice</a></div></div><h3>Publisher</h3><p><a href="https://www.cancer.gov/nano/research/ncl" ref="pagearea=page-banner&targetsite=external&targetcat=link&targettype=publisher">National Cancer Institute (US)</a>, Bethesda (MD)</p><h3>NLM Citation</h3><p>Bui J, Cedrone E, Yu N, et al. Analysis of Nanoparticle Effects on Invasion of Cancer Cells: Version 1.0. 2020 May. In: National Cancer Institute’s Nanotechnology Characterization Laboratory Assay Cascade Protocols [Internet]. Bethesda (MD): National Cancer Institute (US); 2005 May 1-. NCL Method IEA-1.<span class="bk_cite_avail"></span> doi: 10.17917/GS4C-N171</p></div><div class="small-screen-prev"><a href="/books/n/nciprotocols/ncipr35/?report=reader"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 100 100" preserveAspectRatio="none"><path d="M75,30 c-80,60 -80,0 0,60 c-30,-60 -30,0 0,-60"></path><text x="20" y="28" textLength="60" style="font-size:25px">Prev</text></svg></a></div><div class="small-screen-next"><a href="/books/n/nciprotocols/ncipr30/?report=reader"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 100 100" preserveAspectRatio="none"><path d="M25,30c80,60 80,0 0,60 c30,-60 30,0 0,-60"></path><text x="20" y="28" textLength="60" style="font-size:25px">Next</text></svg></a></div></article><article data-type="boxed-text" id="figobncipr34box1"><div id="ncipr34.box1" class="box boxed-text-box whole_rhythm hide-overflow"><h3><span class="label">Box 1</span><span class="title">Example Calculation to Determine Nanoparticle Concentration for In Vitro Tests</span></h3><p>In this example, we assume a mouse dose of 123 mg/kg. Therefore, the scaled equivalent human dose would be:
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<div class="pmc_disp_formula whole_rhythm clearfix" id="ncipr34.deq1"><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow twelve_col"><math id="ncipr34.eq1" display="block"><mi>H</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>d</mi><mi>o</mi><mi>s</mi><mi>e</mi><mo>=</mo><mfrac><mrow><mi>m</mi><mi>o</mi><mi>u</mi><mi>s</mi><mi>e</mi><mtext> </mtext><mi>d</mi><mi>o</mi><mi>s</mi><mi>e</mi></mrow><mrow><mn>12.3</mn></mrow></mfrac><mo>=</mo><mfrac><mrow><mn>123</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>k</mi><mi>g</mi></mrow><mrow><mn>12.3</mn></mrow></mfrac><mo>=</mo><mn>10</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>k</mi><mi>g</mi></math></div><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow last bk_equ_label "><div><span class="nowrap"></span></div></div></div>
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Blood volume constitutes approximately 8% of the body weight. Therefore, an average human of 70 kg body weight has approximately 5.6 L of blood. Assuming all the nanoparticle injected goes into the systemic circulation, this provides a rough approximation of the potential maximum nanoparticle concentration in blood, which is used as the in vitro test concentration.</p><div class="pmc_disp_formula whole_rhythm clearfix" id="ncipr34.deq2"><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow twelve_col">
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<math id="ncipr34.eq2" display="block"><mi>i</mi><mi>n</mi><mtext> </mtext><mi>v</mi><mi>i</mi><mi>t</mi><mi>r</mi><mi>o</mi><mtext> </mtext><mi>c</mi><mi>o</mi><mi>n</mi><mi>c</mi><mi>e</mi><mi>n</mi><mi>t</mi><mi>r</mi><mi>a</mi><mi>t</mi><mi>i</mi><mi>o</mi><msub><mi>n</mi><mrow><mi>h</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>m</mi><mi>a</mi><mi>t</mi><mi>r</mi><mi>i</mi><mi>x</mi></mrow></msub><mo>=</mo><mfrac><mrow><mi>h</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>d</mi><mi>o</mi><mi>s</mi><mi>e</mi></mrow><mrow><mi>h</mi><mi>u</mi><mi>m</mi><mi>a</mi><mi>n</mi><mtext> </mtext><mi>b</mi><mi>l</mi><mi>o</mi><mi>o</mi><mi>d</mi><mtext> </mtext><mi>v</mi><mi>o</mi><mi>l</mi><mi>u</mi><mi>m</mi><mi>e</mi></mrow></mfrac><mo>=</mo><mfrac><mrow><mn>70</mn><mtext> </mtext><mi>k</mi><mi>g</mi><mtext> </mtext><mo>∗</mo><mtext> </mtext><mn>10</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>k</mi><mi>g</mi></mrow><mrow><mn>5.6</mn><mtext> </mtext><mi>L</mi></mrow></mfrac><mo>=</mo><mn>0.125</mn><mtext> </mtext><mi>m</mi><mi>g</mi><mo>/</mo><mi>m</mi><mi>L</mi></math>
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</div><div class="inline_block pmc_inline_block pmc_va_middle pmc_hide_overflow last bk_equ_label "><div><span class="nowrap"></span></div></div></div></div></article><article data-type="fig" id="figobncipr34appfig1"><div id="ncipr34.app.fig1" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf1&p=BOOKS&id=604952_ncipr34appf1.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img data-src="/books/NBK604952/bin/ncipr34appf1.jpg" alt="CIM-Plate 16 schematic, with a cartoon depiction of the lid, cells, upper chamber, gel layer, microporous membrance, microelectrodes, adherent cell, lower chamber, and chemoattractant." class="tileshop" title="Click on image to zoom" /></a></div></div></article><article data-type="fig" id="figobncipr34appfig2"><div id="ncipr34.app.fig2" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf2&p=BOOKS&id=604952_ncipr34appf2.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img data-src="/books/NBK604952/bin/ncipr34appf2.jpg" alt="Image ncipr34appf2" class="tileshop" title="Click on image to zoom" /></a></div></div></article><article data-type="fig" id="figobncipr34appfig3"><div id="ncipr34.app.fig3" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf3&p=BOOKS&id=604952_ncipr34appf3.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img data-src="/books/NBK604952/bin/ncipr34appf3.jpg" alt="Image ncipr34appf3" class="tileshop" title="Click on image to zoom" /></a></div></div></article><article data-type="table-wrap" id="figobncipr34apptab1"><div id="ncipr34.app.tab1" class="table"><p class="large-table-link" style="display:none"><span class="right"><a href="/books/NBK604952/table/ncipr34.app.tab1/?report=objectonly" target="object">View in own window</a></span></p><div class="large_tbl" id="__ncipr34.app.tab1_lrgtbl__"><table><thead><tr><th id="hd_h_ncipr34.app.tab1_1_1_1_1" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">Step #</th><th id="hd_h_ncipr34.app.tab1_1_1_1_2" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">Step Name</th><th id="hd_h_ncipr34.app.tab1_1_1_1_3" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">Interval (min)</th><th id="hd_h_ncipr34.app.tab1_1_1_1_4" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">Sweeps</th></tr></thead><tbody><tr><td headers="hd_h_ncipr34.app.tab1_1_1_1_1" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">
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<a href="#ncipr34.s1">1</a>
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</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_2" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">Background</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_3" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">1.00</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_4" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">1</td></tr><tr><td headers="hd_h_ncipr34.app.tab1_1_1_1_1" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">
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<a href="#ncipr34.s2">2</a>
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</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_2" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">Cell Attachment</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_3" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">0.50</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_4" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">250</td></tr><tr><td headers="hd_h_ncipr34.app.tab1_1_1_1_1" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">
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<a href="#ncipr34.s3">3</a>
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</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_2" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">Cell Growth</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_3" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">15.0</td><td headers="hd_h_ncipr34.app.tab1_1_1_1_4" rowspan="1" colspan="1" style="text-align:center;vertical-align:middle;">300</td></tr></tbody></table></div></div></article><article data-type="fig" id="figobncipr34appfig4"><div id="ncipr34.app.fig4" class="figure"><div class="graphic"><a href="/core/lw/2.0/html/tileshop_pmc/tileshop_pmc_inline.html?title=Image%20ncipr34appf4&p=BOOKS&id=604952_ncipr34appf4.jpg" target="tileshopwindow" class="inline_block pmc_inline_block ts_canvas img_link" title="Click on image to zoom"><div class="ts_bar small" title="Click on image to zoom"></div><img data-src="/books/NBK604952/bin/ncipr34appf4.jpg" alt="Image ncipr34appf4" class="tileshop" title="Click on image to zoom" /></a></div></div></article></div><div id="jr-scripts"><script src="/corehtml/pmc/jatsreader/ptpmc_3.22/js/libs.min.js"> </script><script src="/corehtml/pmc/jatsreader/ptpmc_3.22/js/jr.min.js"> </script><script type="text/javascript" src="/core/mathjax/2.7.9/MathJax.js?config=TeX-AMS-MML_SVG"> </script></div></div>
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