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<Title Here>

<Name of Presenter>

<Job Title>, <Department>

The Catholic University of America

University Research Day, <Date>, <Year>

1

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<Background: Concise Informative Title, Definitions>

2

  • Text here1

4

5

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<Background: State a Problem Your Study Addresses>

3

longitudinal

transverse

18

6-10

114

42-44

153-205

65-131

SZ

MZ

DZ

10-25

7-8

4-7

8-18

12-14

9-11

0.3-0.45

0.6-0.7

0.8-1.2

E (GPa)

σcomp, yield (MPa)

σcomp, ultimate (MPa)

cortical bone biaxial properties

articular cartilage zonal properties, condyle

equil. modulus (MPa)

tensile strength (MPa)

failure strain

6

7

8

xlinks GAG PRG4 DEL-1 CILP Jagged-1

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<Methods: Concise, key details>

4

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<Hypotheses and Objectives>

  • <Hypothesis: write it here, as a question>

  • <Objective #1: State here. The objective tests the hypothesis by a concrete method, complementary to the other objectives>

  • <Objective #2: State here. The objective tests the hypothesis by a concrete method, complementary to the other objectives>

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<Results slide 1: state one major result>

6

200 µm

9

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7

<Results slide 2: extend the result>

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8

<Results slide 3: extend the result>

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9

collagen-alginate ionic cross-flow dep.

50 µm

Ca2+

PBS Collagen

Alginate

collagen

+ alginate

chitosan

100 µm

PBS

Air Bubble

Air Bubble

Collagen Alginate

(0° C)

PDMS Device

Ca2+

10

<Results slide 4: present another major result>

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Before EDTA

8 mg/ml collagen

After EDTA

100 µm

<Results slide 5: extend the major result>

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0 mM

48 h

[HEMA]

24 h

1.5 mM

6.25 mM

25 mM

100 µm

live/dead

100 µm

11

<Results slide 6: more results slides as needed>

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<Discussion>

  • <Analyze by major result. Schematics are useful.>

  • <Interpret by major result. Schematics are useful.>

  • <Contextualize by comparing to other published studies.>

  • <What is the significance and impact?>

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Conclusions

13

Acknowledgements

  • State the major points of the work

Amazing students and collaborators!

  • names
  • names

References

1. Fritz+, Nature, 371:49-51, 1994.

2. Liu+, Biofabrication, 2:022002, 2010.

3. Wu+, Trends Biotechnol, 22:593-9, 2004.

4. Groll+, Biofabrication, 8(1):013001, 2016.

5. Lee+, Science, 365:482-7, 2019.

6. Morgan+, Ann Rev Biomed Eng, 20:119-43, 2018.

7. Temple+, Osteoarthritis Cart, 15: 1042-52, 2007.

8. Klein+, Tissue Engineering: Part B. 15(2): 143-57, 2009.

9. Huynh+, Biotechnol Bioeng, 2020.

10. Correa+, J Micromech Microeng, in review.

11. Rahimi+, Biomicrofluidics, 12(5):054106, 2018.

Funding (optional)

  • Granting organization