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Source: http://www.news-medical.net/tag/feed/Tissue-Engineering.aspx

1. <?xml version="1.0" encoding="utf-8"?>
2. <rss version="2.0" xmlns:media="http://search.yahoo.com/mrss/">
3.  <channel>
4.    <title>News Medical Tissue Engineering News Feed</title>
5.    <description>Latest Tissue Engineering News and Research</description>
6.    <link>https://www.news-medical.net/</link>
7.    <language>en-GB</language>
8.    <item>
9.      <title>Modified sugar molecules boost stem cell therapy for brain repair after cardiac arrest</title>
10.      <description>Researchers at the University of Maryland School of Medicine (UMSOM) have identified an innovation in stem cell therapy to regenerate neural cells in the brain after cardiac arrest in an animal model.</description>
11.      <link>https://www.news-medical.net/news/20240506/Modified-sugar-molecules-boost-stem-cell-therapy-for-brain-repair-after-cardiac-arrest.aspx</link>
12.      <comments>https://www.news-medical.net/news/20240506/Modified-sugar-molecules-boost-stem-cell-therapy-for-brain-repair-after-cardiac-arrest.aspx#comment</comments>
13.      <guid>https://www.news-medical.net/post.aspx?id=aa2fb52b-fbf3-4099-b6ca-b9661356756e</guid>
14.      <pubDate>Mon, 06 May 2024 02:27:00 -0400</pubDate>
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16.        <media:description><![CDATA[Modified sugar molecules boost stem cell therapy for brain repair after cardiac arrest]]></media:description>
17.      </media:content>
18.    </item>
19.    <item>
20.      <title>Novel vaccine approach targets AML and other blood cancers</title>
21.      <description>Acute myeloid leukemia (AML) is a type of blood cancer that forms in the soft marrow of the bones, typically attacking cells that would otherwise form the key component of the body's immunodefense system, white blood cells.</description>
22.      <link>https://www.news-medical.net/news/20240503/Novel-vaccine-approach-targets-AML-and-other-blood-cancers.aspx</link>
23.      <comments>https://www.news-medical.net/news/20240503/Novel-vaccine-approach-targets-AML-and-other-blood-cancers.aspx#comment</comments>
24.      <guid>https://www.news-medical.net/post.aspx?id=a8b7a006-ceba-4572-b281-5613961b10de</guid>
25.      <pubDate>Fri, 03 May 2024 23:28:00 -0400</pubDate>
26.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2017/1/A_doctor_makes_a_vaccination_to_a_child-Yuganov_Konstantin_cdbf1b05417f45e89b8268af4858e1c9-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
27.        <media:description><![CDATA[Novel vaccine approach targets AML and other blood cancers]]></media:description>
28.      </media:content>
29.    </item>
30.    <item>
31.      <title>Novel fabrication method creates aligned nanofiber hydrogels for tissue regeneration</title>
32.      <description>A team of chemists and bioengineers at Rice University and the University of Houston have achieved a significant milestone in their work to create a biomaterial that can be used to grow biological tissues outside the human body.</description>
33.      <link>https://www.news-medical.net/news/20240503/Novel-fabrication-method-creates-aligned-nanofiber-hydrogels-for-tissue-regeneration.aspx</link>
34.      <comments>https://www.news-medical.net/news/20240503/Novel-fabrication-method-creates-aligned-nanofiber-hydrogels-for-tissue-regeneration.aspx#comment</comments>
35.      <guid>https://www.news-medical.net/post.aspx?id=1a29480a-88f8-4748-af47-69e3386928d4</guid>
36.      <pubDate>Fri, 03 May 2024 23:12:02 -0400</pubDate>
37.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2016/5/3d_rendered_illustration_-_nerve_cell-Sebastian_Kaulitzki_(2)_6e98296023b34dfabc133638c1ef5d32-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
38.        <media:description><![CDATA[Novel fabrication method creates aligned nanofiber hydrogels for tissue regeneration]]></media:description>
39.      </media:content>
40.    </item>
41.    <item>
42.      <title>Innovative material swiftly stops kidney bleeding and facilitates wound recovery</title>
43.      <description>Professor Dong-Woo Cho from the Department of Mechanical Engineering along with Jae Yun Kim, a PhD candidate, from the School of Interdisciplinary Bioscience and Bioengineering and Tugce Sen, a PhD student, from Department of Mechanical Engineering at POSTECH, teamed up with Professor Jae Yeon Lee from Daegu Haany University's Department of Companion Animal Health.</description>
44.      <link>https://www.news-medical.net/news/20240502/Innovative-material-swiftly-stops-kidney-bleeding-and-facilitates-wound-recovery.aspx</link>
45.      <comments>https://www.news-medical.net/news/20240502/Innovative-material-swiftly-stops-kidney-bleeding-and-facilitates-wound-recovery.aspx#comment</comments>
46.      <guid>https://www.news-medical.net/post.aspx?id=e180d196-5c97-4bd2-9b45-90d637bedffc</guid>
47.      <pubDate>Thu, 02 May 2024 17:38:00 -0400</pubDate>
48.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2014/7/Hemostasis-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
49.        <media:description><![CDATA[Innovative material swiftly stops kidney bleeding and facilitates wound recovery]]></media:description>
50.      </media:content>
51.    </item>
52.    <item>
53.      <title>Glycoengineered stem cells enhance brain recovery after cardiac arrest, study finds</title>
54.      <description>Researchers at the University of Maryland School of Medicine have identified an innovation in stem cell therapy to regenerate neural cells in the brain after cardiac arrest in an animal model.</description>
55.      <link>https://www.news-medical.net/news/20240502/Glycoengineered-stem-cells-enhance-brain-recovery-after-cardiac-arrest-study-finds.aspx</link>
56.      <comments>https://www.news-medical.net/news/20240502/Glycoengineered-stem-cells-enhance-brain-recovery-after-cardiac-arrest-study-finds.aspx#comment</comments>
57.      <guid>https://www.news-medical.net/post.aspx?id=5a5958e3-8aaf-4291-b031-9e2efb912493</guid>
58.      <pubDate>Thu, 02 May 2024 14:25:23 -0400</pubDate>
59.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2017/6/Anatomical_structure_of_biological_animal_cell_with_organelles-eranicle_1d73b50575dc4546875a4a2fc7d429a6-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
60.        <media:description><![CDATA[Glycoengineered stem cells enhance brain recovery after cardiac arrest, study finds]]></media:description>
61.      </media:content>
62.    </item>
63.    <item>
64.      <title>Novel lab-grown mini-colons can accurately mimic the development of colorectal tumors</title>
65.      <description>In a breakthrough for cancer research, scientists at EPFL have created lab-grown mini-colons that can accurately mimic the development of colorectal tumors, offering a powerful new tool for studying and testing treatments for the disease.</description>
66.      <link>https://www.news-medical.net/news/20240424/Novel-lab-grown-mini-colons-can-accurately-mimic-the-development-of-colorectal-tumors.aspx</link>
67.      <comments>https://www.news-medical.net/news/20240424/Novel-lab-grown-mini-colons-can-accurately-mimic-the-development-of-colorectal-tumors.aspx#comment</comments>
68.      <guid>https://www.news-medical.net/post.aspx?id=9548c2cf-5b05-442f-b14b-930b4a8ad225</guid>
69.      <pubDate>Wed, 24 Apr 2024 11:21:00 -0400</pubDate>
70.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2014/7/174318220-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
71.        <media:description><![CDATA[Novel lab-grown mini-colons can accurately mimic the development of colorectal tumors]]></media:description>
72.      </media:content>
73.    </item>
74.    <item>
75.      <title>Rice University bioengineers receive $1.4M to combat osteoarthritis</title>
76.      <description>Bioengineers at Rice University have been awarded $1.4 million as part of a multi-center consortium funded by the Advanced Research Projects Agency for Health (ARPA-H) to develop strategies for reversing the effects of osteoarthritis.</description>
77.      <link>https://www.news-medical.net/news/20240418/Rice-University-bioengineers-receive-2414M-to-combat-osteoarthritis.aspx</link>
78.      <comments>https://www.news-medical.net/news/20240418/Rice-University-bioengineers-receive-2414M-to-combat-osteoarthritis.aspx#comment</comments>
79.      <guid>https://www.news-medical.net/post.aspx?id=6c523bd1-bf2a-4a0c-be30-5c28bf2b56f8</guid>
80.      <pubDate>Thu, 18 Apr 2024 23:34:36 -0400</pubDate>
81.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2014/7/Osteoarthritis-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
82.        <media:description><![CDATA[Rice University bioengineers receive $1.4M to combat osteoarthritis]]></media:description>
83.      </media:content>
84.    </item>
85.    <item>
86.      <title>Maleic acid treatment enhances bacterial cellulose for bone tissue engineering</title>
87.      <description>The field of bone tissue engineering (BTE) was a promising avenue for addressing bone injuries and defects by constructing artificial scaffolds with bionic functionalities.</description>
88.      <link>https://www.news-medical.net/news/20240415/Maleic-acid-treatment-enhances-bacterial-cellulose-for-bone-tissue-engineering.aspx</link>
89.      <comments>https://www.news-medical.net/news/20240415/Maleic-acid-treatment-enhances-bacterial-cellulose-for-bone-tissue-engineering.aspx#comment</comments>
90.      <guid>https://www.news-medical.net/post.aspx?id=56b2b8c3-032a-4f87-8480-dbcac29a08d5</guid>
91.      <pubDate>Mon, 15 Apr 2024 15:04:00 -0400</pubDate>
92.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2018/7/Osteoporosis_stage_3_of_4_-_upper_limb_bones_-_3d_rendering_-_Crevis_M1_62ee9a3e223b497ca6798e45d894de93-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
93.        <media:description><![CDATA[Maleic acid treatment enhances bacterial cellulose for bone tissue engineering]]></media:description>
94.      </media:content>
95.    </item>
96.    <item>
97.      <title>PeriCord bioimplants show promise in heart regeneration studies</title>
98.      <description>The promising results obtained in a clinical trial with a pioneering advanced therapy drug named PeriCord, which aims to repair the heart of patients who have suffered a heart attack, confirm the feasibility of new therapies based on the application of stem cells and tissue engineering to promote the regeneration of damaged tissues.</description>
99.      <link>https://www.news-medical.net/news/20240405/PeriCord-bioimplants-show-promise-in-heart-regeneration-studies.aspx</link>
100.      <comments>https://www.news-medical.net/news/20240405/PeriCord-bioimplants-show-promise-in-heart-regeneration-studies.aspx#comment</comments>
101.      <guid>https://www.news-medical.net/post.aspx?id=05172b5b-7362-48c0-925c-c1e621d2f73d</guid>
102.      <pubDate>Fri, 05 Apr 2024 17:07:00 -0400</pubDate>
103.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2019/9/Umbilical_cord_cut_and_clamped_right_after_birth_of_the_newborn_baby_but_still_a_-_Semmick_Photo_M1_c2651770f4984d088920ccf535ea6738-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
104.        <media:description><![CDATA[PeriCord bioimplants show promise in heart regeneration studies]]></media:description>
105.      </media:content>
106.    </item>
107.    <item>
108.      <title>Novel antibiotic-infused hydrogel kills bacteria and promotes cell growth</title>
109.      <description>Hydrogels are popular for use in skin ailments and tissue engineering. These polymer-based biocompatible materials are useful for their abilities to retain water, deliver drugs into wounds, and biodegrade.</description>
110.      <link>https://www.news-medical.net/news/20240402/Novel-antibiotic-infused-hydrogel-kills-bacteria-and-promotes-cell-growth.aspx</link>
111.      <comments>https://www.news-medical.net/news/20240402/Novel-antibiotic-infused-hydrogel-kills-bacteria-and-promotes-cell-growth.aspx#comment</comments>
112.      <guid>https://www.news-medical.net/post.aspx?id=35e991bf-633b-4638-8ae9-a24bc7187216</guid>
113.      <pubDate>Tue, 02 Apr 2024 15:20:34 -0400</pubDate>
114.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2019/5/Nursing_student_were_trained_how_to_wound_care_patient._She_practice_training_wi_-_Bangkoker_M1_af193fc3b395441ba96a555d17e5139d-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
115.        <media:description><![CDATA[Novel antibiotic-infused hydrogel kills bacteria and promotes cell growth]]></media:description>
116.      </media:content>
117.    </item>
118.  </channel>
119. </rss>

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