Mxene composite fibers with advanced thermal management for inhibiting tumor recurrence and accelerating wound healing
•Unidirectional thermal conductivity improves heat distribution.•Comsol simulations explain the improved heat distribution.•Eliminate postoperative residual cancer cells reducing tumor recurrence.•Effectively kills drug-resistant bacteria promoting wound healing. Skin cancer is usually treated by su...
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Published in | Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 459; p. 141529 |
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Main Authors | , , , , , , , , , |
Format | Journal Article |
Language | English |
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Elsevier B.V
01.03.2023
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Abstract | •Unidirectional thermal conductivity improves heat distribution.•Comsol simulations explain the improved heat distribution.•Eliminate postoperative residual cancer cells reducing tumor recurrence.•Effectively kills drug-resistant bacteria promoting wound healing.
Skin cancer is usually treated by surgical excision in the clinic. However, the unavoidable residual cancer cells and possible wound infection lead to a high tumor recurrence rate and slow wound recovery. Existing photothermal film materials tend to have a higher heat distribution on the upper surface than on the lower surface. This leads to low temperature on the lower surface attached to the skin that cannot produce effective photothermal effects. Herein, we designed a micro-nano effect combining Ti3C2Tx MXene and fibers, which produces a similar lens effect to regulate the heat generated on the upper surface transmitting to the lower surface of the fiber membrane. Due to its asymmetric and unidirectional thermal conductivity having been significantly promoted, the fiber membrane exhibits effective ablating residual cancer cells after surgical excision attached to the wound as a dressing, and thus effectively inhibits tumor growth. In addition, this thermal management fiber membrane also exhibits an excellent bactericidal effect, accelerating post-surgical wound healing without losing the property of preventing post-surgical tumor recurrence. |
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AbstractList | •Unidirectional thermal conductivity improves heat distribution.•Comsol simulations explain the improved heat distribution.•Eliminate postoperative residual cancer cells reducing tumor recurrence.•Effectively kills drug-resistant bacteria promoting wound healing.
Skin cancer is usually treated by surgical excision in the clinic. However, the unavoidable residual cancer cells and possible wound infection lead to a high tumor recurrence rate and slow wound recovery. Existing photothermal film materials tend to have a higher heat distribution on the upper surface than on the lower surface. This leads to low temperature on the lower surface attached to the skin that cannot produce effective photothermal effects. Herein, we designed a micro-nano effect combining Ti3C2Tx MXene and fibers, which produces a similar lens effect to regulate the heat generated on the upper surface transmitting to the lower surface of the fiber membrane. Due to its asymmetric and unidirectional thermal conductivity having been significantly promoted, the fiber membrane exhibits effective ablating residual cancer cells after surgical excision attached to the wound as a dressing, and thus effectively inhibits tumor growth. In addition, this thermal management fiber membrane also exhibits an excellent bactericidal effect, accelerating post-surgical wound healing without losing the property of preventing post-surgical tumor recurrence. |
ArticleNumber | 141529 |
Author | Sun, Yuehua Zhu, Youfu Chen, Shengnan Yan, Bingyu Ding, Liqiang Xu, Lei Ding, Yining Long, Yun-Ze Ramakrishna, Seeram Zhang, Jun |
Author_xml | – sequence: 1 givenname: Yining surname: Ding fullname: Ding, Yining organization: Collaborative Innovation Center for Nanomaterials & Devices, College of Physics, Qingdao University, Qingdao 266071, PR China – sequence: 2 givenname: Lei orcidid: 0000-0002-8048-4193 surname: Xu fullname: Xu, Lei organization: Collaborative Innovation Center for Nanomaterials & Devices, College of Physics, Qingdao University, Qingdao 266071, PR China – sequence: 3 givenname: Shengnan surname: Chen fullname: Chen, Shengnan organization: The Affiliated Hospital of Qingdao University, Qingdao 266000, PR China – sequence: 4 givenname: Youfu surname: Zhu fullname: Zhu, Youfu organization: The Affiliated Hospital of Qingdao University, Qingdao 266000, PR China – sequence: 5 givenname: Yuehua surname: Sun fullname: Sun, Yuehua organization: Collaborative Innovation Center for Nanomaterials & Devices, College of Physics, Qingdao University, Qingdao 266071, PR China – sequence: 6 givenname: Liqiang surname: Ding fullname: Ding, Liqiang organization: Collaborative Innovation Center for Nanomaterials & Devices, College of Physics, Qingdao University, Qingdao 266071, PR China – sequence: 7 givenname: Bingyu surname: Yan fullname: Yan, Bingyu organization: Collaborative Innovation Center for Nanomaterials & Devices, College of Physics, Qingdao University, Qingdao 266071, PR China – sequence: 8 givenname: Seeram surname: Ramakrishna fullname: Ramakrishna, Seeram organization: Center for Nanofibers & Nanotechnology, Department of Mechanical Engineering, National University of Singapore, Singapore 117574, Singapore – sequence: 9 givenname: Jun surname: Zhang fullname: Zhang, Jun email: iamjunzhang@163.com organization: Collaborative Innovation Center for Nanomaterials & Devices, College of Physics, Qingdao University, Qingdao 266071, PR China – sequence: 10 givenname: Yun-Ze orcidid: 0000-0002-4278-4515 surname: Long fullname: Long, Yun-Ze email: yunze.long@qdu.edu.cn organization: Collaborative Innovation Center for Nanomaterials & Devices, College of Physics, Qingdao University, Qingdao 266071, PR China |
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