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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>Novel lab-grown mini-colons can accurately mimic the development of colorectal tumors</title>
10.      <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>
11.      <link>https://www.news-medical.net/news/20240424/Novel-lab-grown-mini-colons-can-accurately-mimic-the-development-of-colorectal-tumors.aspx</link>
12.      <comments>https://www.news-medical.net/news/20240424/Novel-lab-grown-mini-colons-can-accurately-mimic-the-development-of-colorectal-tumors.aspx#comment</comments>
13.      <guid>https://www.news-medical.net/post.aspx?id=9548c2cf-5b05-442f-b14b-930b4a8ad225</guid>
14.      <pubDate>Wed, 24 Apr 2024 11:21:00 -0400</pubDate>
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16.        <media:description><![CDATA[Novel lab-grown mini-colons can accurately mimic the development of colorectal tumors]]></media:description>
17.      </media:content>
18.    </item>
19.    <item>
20.      <title>Rice University bioengineers receive $1.4M to combat osteoarthritis</title>
21.      <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>
22.      <link>https://www.news-medical.net/news/20240418/Rice-University-bioengineers-receive-2414M-to-combat-osteoarthritis.aspx</link>
23.      <comments>https://www.news-medical.net/news/20240418/Rice-University-bioengineers-receive-2414M-to-combat-osteoarthritis.aspx#comment</comments>
24.      <guid>https://www.news-medical.net/post.aspx?id=6c523bd1-bf2a-4a0c-be30-5c28bf2b56f8</guid>
25.      <pubDate>Thu, 18 Apr 2024 23:34:36 -0400</pubDate>
26.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2014/7/Osteoarthritis-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
27.        <media:description><![CDATA[Rice University bioengineers receive $1.4M to combat osteoarthritis]]></media:description>
28.      </media:content>
29.    </item>
30.    <item>
31.      <title>Maleic acid treatment enhances bacterial cellulose for bone tissue engineering</title>
32.      <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>
33.      <link>https://www.news-medical.net/news/20240415/Maleic-acid-treatment-enhances-bacterial-cellulose-for-bone-tissue-engineering.aspx</link>
34.      <comments>https://www.news-medical.net/news/20240415/Maleic-acid-treatment-enhances-bacterial-cellulose-for-bone-tissue-engineering.aspx#comment</comments>
35.      <guid>https://www.news-medical.net/post.aspx?id=56b2b8c3-032a-4f87-8480-dbcac29a08d5</guid>
36.      <pubDate>Mon, 15 Apr 2024 15:04:00 -0400</pubDate>
37.      <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">
38.        <media:description><![CDATA[Maleic acid treatment enhances bacterial cellulose for bone tissue engineering]]></media:description>
39.      </media:content>
40.    </item>
41.    <item>
42.      <title>PeriCord bioimplants show promise in heart regeneration studies</title>
43.      <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>
44.      <link>https://www.news-medical.net/news/20240405/PeriCord-bioimplants-show-promise-in-heart-regeneration-studies.aspx</link>
45.      <comments>https://www.news-medical.net/news/20240405/PeriCord-bioimplants-show-promise-in-heart-regeneration-studies.aspx#comment</comments>
46.      <guid>https://www.news-medical.net/post.aspx?id=05172b5b-7362-48c0-925c-c1e621d2f73d</guid>
47.      <pubDate>Fri, 05 Apr 2024 17:07:00 -0400</pubDate>
48.      <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">
49.        <media:description><![CDATA[PeriCord bioimplants show promise in heart regeneration studies]]></media:description>
50.      </media:content>
51.    </item>
52.    <item>
53.      <title>Novel antibiotic-infused hydrogel kills bacteria and promotes cell growth</title>
54.      <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>
55.      <link>https://www.news-medical.net/news/20240402/Novel-antibiotic-infused-hydrogel-kills-bacteria-and-promotes-cell-growth.aspx</link>
56.      <comments>https://www.news-medical.net/news/20240402/Novel-antibiotic-infused-hydrogel-kills-bacteria-and-promotes-cell-growth.aspx#comment</comments>
57.      <guid>https://www.news-medical.net/post.aspx?id=35e991bf-633b-4638-8ae9-a24bc7187216</guid>
58.      <pubDate>Tue, 02 Apr 2024 15:20:34 -0400</pubDate>
59.      <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">
60.        <media:description><![CDATA[Novel antibiotic-infused hydrogel kills bacteria and promotes cell growth]]></media:description>
61.      </media:content>
62.    </item>
63.    <item>
64.      <title>Researchers develop realistic replica of adult human ear using 3D printing</title>
65.      <description>Using state-of-the-art tissue engineering techniques and a 3D printer, researchers at Weill Cornell Medicine and Cornell Engineering have assembled a replica of an adult human ear that looks and feels natural.</description>
66.      <link>https://www.news-medical.net/news/20240329/Researchers-develop-realistic-replica-of-adult-human-ear-using-3D-printing.aspx</link>
67.      <comments>https://www.news-medical.net/news/20240329/Researchers-develop-realistic-replica-of-adult-human-ear-using-3D-printing.aspx#comment</comments>
68.      <guid>https://www.news-medical.net/post.aspx?id=f7267361-7edb-485d-b94d-8cd5252b319b</guid>
69.      <pubDate>Fri, 29 Mar 2024 16:04:00 -0400</pubDate>
70.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2014/7/Tissue_Engineering-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
71.        <media:description><![CDATA[Researchers develop realistic replica of adult human ear using 3D printing]]></media:description>
72.      </media:content>
73.    </item>
74.    <item>
75.      <title>New battery-free implant allows users to monitor their bladder fullness in real time</title>
76.      <description>Should you run to the bathroom now? Or can you hold it until you get home? A new implant and associated smartphone app may someday remove the guess work from the equation.</description>
77.      <link>https://www.news-medical.net/news/20240326/New-battery-free-implant-allows-users-to-monitor-their-bladder-fullness-in-real-time.aspx</link>
78.      <comments>https://www.news-medical.net/news/20240326/New-battery-free-implant-allows-users-to-monitor-their-bladder-fullness-in-real-time.aspx#comment</comments>
79.      <guid>https://www.news-medical.net/post.aspx?id=269f7a5b-49a2-4495-af6a-1c567760b72c</guid>
80.      <pubDate>Tue, 26 Mar 2024 15:26:01 -0400</pubDate>
81.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2016/3/Children_playing_sunset_-_Zurijeta_8c5bdac77e44431bb1bfec67b9c87208-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
82.        <media:description><![CDATA[New battery-free implant allows users to monitor their bladder fullness in real time]]></media:description>
83.      </media:content>
84.    </item>
85.    <item>
86.      <title>ADSC-Exos enhance healing process of diabetic wounds, study finds</title>
87.      <description>The increasing prevalence of diabetes worldwide has led to a rise in diabetic wounds, such as diabetic foot ulcers, which are challenging to treat and can result in amputation.</description>
88.      <link>https://www.news-medical.net/news/20240318/ADSC-Exos-enhance-healing-process-of-diabetic-wounds-study-finds.aspx</link>
89.      <comments>https://www.news-medical.net/news/20240318/ADSC-Exos-enhance-healing-process-of-diabetic-wounds-study-finds.aspx#comment</comments>
90.      <guid>https://www.news-medical.net/post.aspx?id=2c71e5eb-5734-4b0e-97c5-f42efe443291</guid>
91.      <pubDate>Mon, 18 Mar 2024 13:12:35 -0400</pubDate>
92.      <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">
93.        <media:description><![CDATA[ADSC-Exos enhance healing process of diabetic wounds, study finds]]></media:description>
94.      </media:content>
95.    </item>
96.    <item>
97.      <title>Study analyzes effects of burn injury on the gut microbiota and mucus barrier in mice</title>
98.      <description>The gut microbiota, a complex ecosystem within the human intestinal tract, is increasingly recognized for its vital role in human health and disease.</description>
99.      <link>https://www.news-medical.net/news/20240314/Study-analyzes-effects-of-burn-injury-on-the-gut-microbiota-and-mucus-barrier-in-mice.aspx</link>
100.      <comments>https://www.news-medical.net/news/20240314/Study-analyzes-effects-of-burn-injury-on-the-gut-microbiota-and-mucus-barrier-in-mice.aspx#comment</comments>
101.      <guid>https://www.news-medical.net/post.aspx?id=9ef88b65-b991-4e52-b302-14dd6d47a60e</guid>
102.      <pubDate>Thu, 14 Mar 2024 10:08:00 -0400</pubDate>
103.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2016/3/bacteria_-_Sebastian_Kaulitzki_46826fb7971649bfaca04a9b4cef3309-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
104.        <media:description><![CDATA[Study analyzes effects of burn injury on the gut microbiota and mucus barrier in mice]]></media:description>
105.      </media:content>
106.    </item>
107.    <item>
108.      <title>Researchers pioneer a novel approach to enhance diabetic wound healing</title>
109.      <description>Researchers unveiled a novel therapy for diabetic wound healing. This research highlights the use of exosomal miR-4645-5p from hypoxic bone marrow mesenchymal stem cells (BMSCs) to significantly enhance wound healing by promoting keratinocyte autophagy.</description>
110.      <link>https://www.news-medical.net/news/20240314/Researchers-pioneer-a-novel-approach-to-enhance-diabetic-wound-healing.aspx</link>
111.      <comments>https://www.news-medical.net/news/20240314/Researchers-pioneer-a-novel-approach-to-enhance-diabetic-wound-healing.aspx#comment</comments>
112.      <guid>https://www.news-medical.net/post.aspx?id=79ecdd38-e423-4fbb-a969-1df944124c87</guid>
113.      <pubDate>Thu, 14 Mar 2024 09:55:00 -0400</pubDate>
114.      <media:content url="https://d2jx2rerrg6sh3.cloudfront.net/image-handler/picture/2017/6/%40cell%2c_cell_structure%2c_cell_anatomy_in_section_on_a_white_background.-Anton_Nalivayko_3af0fca106ac4af3887f5b4af13cbaa5-620x480.jpg" type="image/jpeg" expression="full" width="620" height="480">
115.        <media:description><![CDATA[Researchers pioneer a novel approach to enhance diabetic wound healing]]></media:description>
116.      </media:content>
117.    </item>
118.  </channel>
119. </rss>

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