This work build on our previous studies where we have shown that mechanical actuation can reduce the foreign body response to medical implants in vivo https://t.co/CFvUZqBAF8 https://t.co/LDDctHVjbA
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @DebkalpaGoswami: Proud to share my latest work from @MIT @MIT_IMES on implantable soft robotics for immunomodulation and drug delivery,…
RT @EimearBDolan: 🧑🔬👩🔬Our latest publication in @NatureComms. It is a privilege to work with such a talented team of researchers. I look…
RT @MedeAsoftware: Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform https://t…
RT @MedeAsoftware: Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform https://t…
RT @MedeAsoftware: Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform https://t…
Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform https://t.co/ySF2K3b3Qp #materials https://t.co/NWK2DdO0mk
RT @gduffy00: 📢⬇️Our new study with @ellentroche & @EimearBDolan online @NatureComms - expertly summarised by Ellen below with efforts led…
Prof Garry Duffy, Dr Eimear Dolan @nuigalway in collaboration with Prof Ellen Roche @MIT have developed a new approach that enhances transport and extends therapeutic lifespan in an implantable medical device. Read the full article in Nature here: https://
The full study is available via @NatureComms 👇https://t.co/bJjgUQrLVw
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @EimearBDolan: 🧑🔬👩🔬Our latest publication in @NatureComms. It is a privilege to work with such a talented team of researchers. I look…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
Full paper at @NatureComms Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform @ellentroche @MITMechE @MIT_IMES @mit_hst @MIT #medicine #engineering #health #healthcare https://t.co/6qkahGdUfP
RT @deliver_project: Check out this amazing new paper by @gduffy00 @EimearBDolan & @ellentroche labs. Beautifully summarised by Ellen in th…
RT @deliver_project: Check out this amazing new paper by @gduffy00 @EimearBDolan & @ellentroche labs. Beautifully summarised by Ellen in th…
Check out this amazing new paper by @gduffy00 @EimearBDolan & @ellentroche labs. Beautifully summarised by Ellen in the thread below ✅ DELIVER ESR @DDomingolpz is a co-author of this paper 👏 incredible work by all involved 👏
RT @gduffy00: 📢⬇️Our new study with @ellentroche & @EimearBDolan online @NatureComms - expertly summarised by Ellen below with efforts led…
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
Daily word art by Kesho and article by Whyte et al. at: https://t.co/uS7c5ZX6M3 https://t.co/Y0izCDJC4A
RT @gduffy00: 📢⬇️Our new study with @ellentroche & @EimearBDolan online @NatureComms - expertly summarised by Ellen below with efforts led…
RT @gduffy00: 📢⬇️Our new study with @ellentroche & @EimearBDolan online @NatureComms - expertly summarised by Ellen below with efforts led…
Delighted I was given the opportunity to work on such an exciting project with great collaborators 👏 congratulations to all involved!
Check out our group’s latest paper! Congratulations to the team ♥️
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @EimearBDolan: 🧑🔬👩🔬Our latest publication in @NatureComms. It is a privilege to work with such a talented team of researchers. I look…
RT @DebkalpaGoswami: Proud to share my latest work from @MIT @MIT_IMES on implantable soft robotics for immunomodulation and drug delivery,…
@Jingjing___Wu @deng_jue @HyunwooYuk
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @EimearBDolan: 🧑🔬👩🔬Our latest publication in @NatureComms. It is a privilege to work with such a talented team of researchers. I look…
Proud to share this exciting work on modulating immune response to implanted devices, summarized wonderfully below! What an honour it is to work with such an incredible group of passionate and inspiring coauthors 🤩 looking forward to what’s to come! 👩🔬
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
Proud to share my latest work from @MIT @MIT_IMES on implantable soft robotics for immunomodulation and drug delivery, published in @NatureComms. Grateful to @ellentroche for her mentorship. Great collab with groups of @gduffy00 and @EimearBDolan. Excellen
Led by Dr. @EllenTRoche, scientists at @MIT_IMES developed an implantable #DrugDelivery platform with potential clinical utility for a variety of indications where transport is affected by #fibrosis, such as the management of type 1 #diabetes. Learn more:
RT @EimearBDolan: 🧑🔬👩🔬Our latest publication in @NatureComms. It is a privilege to work with such a talented team of researchers. I look…
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @gduffy00: 📢⬇️Our new study with @ellentroche & @EimearBDolan online @NatureComms - expertly summarised by Ellen below with efforts led…
🧑🔬👩🔬Our latest publication in @NatureComms. It is a privilege to work with such a talented team of researchers. I look forward to continuing working together and developing this technology further @ellentroche @gduffy00 @Bio_Eng_NUIG https://t.co/NyiXmH
Delighted to have been involved in this study published in @NatureComms I was involved in this work as part of my @Fulbright_Eire scholarship @MIT_IMES some really exciting work demonstrating the benefits of dynamic actuation for implatable devices. More i
RT @gduffy00: 📢⬇️Our new study with @ellentroche & @EimearBDolan online @NatureComms - expertly summarised by Ellen below with efforts led…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
📢⬇️Our new study with @ellentroche & @EimearBDolan online @NatureComms - expertly summarised by Ellen below with efforts led @MIT_IMES by @WWhyte90 @DebkalpaGoswami & Sophie! A great example of transatlantic teamwork to discern & apply soft rob
RT @ellentroche: 1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte9…
Cool work from @ellentroche and her team / collaborators!!!
1/14 Delighted to share a study from our group and the groups of @EimearBDolan and @gduffy00. A heroic effort by @WWhyte90 @DebkalpaGoswami Sophie Wang @NiamhAWard @Ruth_Levey @yilingfan1 and many others. Read it here @natcomms https://t.co/3mcGrJxQv0.
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform | Nature Communications https://t.co/Onw47LlU9y
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
RT @medical_xpress: Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V…
Design prevents buildup of scar tissue around medical implants @MIT @NatureComms https://t.co/szQOMcc6Eu https://t.co/V0bvqO6RBO
Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform https://t.co/MEdMq4ZA5K