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Journal Articles
Journal:
Journal of Medical Devices
Publisher: ASME
Article Type: Review Articles
J. Med. Devices. December 2024, 18(4): 040802.
Paper No: MED-24-1044
Published Online: September 30, 2024
Journal Articles
Samantha Stewart, Alisa White, Wenquan Ou, Wei Liu, Jennifer Nagashima, Nucharin Songsasen, Xiaoming He
Journal:
Journal of Medical Devices
Publisher: ASME
Article Type: Research-Article
J. Med. Devices. December 2024, 18(4): 041007.
Paper No: MED-24-1053
Published Online: September 30, 2024
Image
Published Online: September 30, 2024
Fig. 1 Types of active blood and fluid warming methods More about this image found in Types of active blood and fluid warming methods
Image
Published Online: September 30, 2024
Fig. 2 Pictures of passive blood and fluid warming methods: reusable hand warmers on the left and an MRE package on the right More about this image found in Pictures of passive blood and fluid warming methods: reusable hand warmers ...
Image
in Controlled Ice Nucleation With a Sand-PDMS Film Device Enhances Cryopreservation of Mouse Preantral Ovarian Follicles
> Journal of Medical Devices
Published Online: September 30, 2024
Fig. 1 Preparing and using the sand-PDMS film device for cryopreservation. ( a ) A schematic illustration for preparing the sand-PDMS film and attaching it to the inside wall of a cryovial. Sand is first washed and sterilized before being sifted through a 200 μ m pore size mesh strainer onto the ... More about this image found in Preparing and using the sand-PDMS film device for cryopreservation. ( a ) A...
Image
in Controlled Ice Nucleation With a Sand-PDMS Film Device Enhances Cryopreservation of Mouse Preantral Ovarian Follicles
> Journal of Medical Devices
Published Online: September 30, 2024
Fig. 2 High subzero ice-seeding temperature is enabled by the sand-PDMS film. ( a ) Representative thermal histories of follicle cryopreservation solution during slow-cooling of samples with no film (control (blank)) and with sand-PDMS film (sand-PDMS film). The ice-seeding temperature is indicate... More about this image found in High subzero ice-seeding temperature is enabled by the sand-PDMS film. ( a ...
Image
in Controlled Ice Nucleation With a Sand-PDMS Film Device Enhances Cryopreservation of Mouse Preantral Ovarian Follicles
> Journal of Medical Devices
Published Online: September 30, 2024
Fig. 3 Immediate viability of fresh and cryopreserved ovarian follicles. ( a ) Immediate (after 2 h incubation in recovery medium at 37 °C) viability of fresh ovarian follicles, follicles cryopreserved without using the sand-PDMS film, and follicles cryopreserved using the sand-PDMS film assessed ... More about this image found in Immediate viability of fresh and cryopreserved ovarian follicles. ( a ) Imm...
Image
in Controlled Ice Nucleation With a Sand-PDMS Film Device Enhances Cryopreservation of Mouse Preantral Ovarian Follicles
> Journal of Medical Devices
Published Online: September 30, 2024
Fig. 4 Representative morphology of fresh and cryopreserved ovarian follicles during in vitro culture. Follicles cryopreserved with or without the sand-PDMS film were thawed and encapsulated in 0.25% alginate for 9 days of in vitro culture. Fresh follicles were encapsulated on the same day of isol... More about this image found in Representative morphology of fresh and cryopreserved ovarian follicles duri...
Image
in Controlled Ice Nucleation With a Sand-PDMS Film Device Enhances Cryopreservation of Mouse Preantral Ovarian Follicles
> Journal of Medical Devices
Published Online: September 30, 2024
Fig. 5 Growth and long-term survival of fresh and cryopreserved ovarian follicles during in vitro culture. Individual growth curves of ( a ) freshly isolated follicles, ( b ) follicles cryopreserved without the sand-film, and ( c )follicles cryopreserved using the sand-film during 9 days of in vit... More about this image found in Growth and long-term survival of fresh and cryopreserved ovarian follicles ...
Journal Articles
Accepted Manuscript
Andrea Fonseca da Cruz, Jacob Herrmann, Bakir Hajdarevic, Monica Hawley, Donald Fox, Jason Bates, David W. Kaczka
Journal:
Journal of Medical Devices
Publisher: ASME
Article Type: Research-Article
J. Med. Devices.
Paper No: MED-24-1049
Published Online: September 28, 2024
Journal Articles
Accepted Manuscript
Journal:
Journal of Medical Devices
Publisher: ASME
Article Type: Technical Briefs
J. Med. Devices.
Paper No: MED-24-1086
Published Online: September 28, 2024
Journal Articles
Accepted Manuscript
Journal:
Journal of Medical Devices
Publisher: ASME
Article Type: Research-Article
J. Med. Devices.
Paper No: MED-24-1081
Published Online: September 28, 2024
Journal Articles
Accepted Manuscript
Journal:
Journal of Medical Devices
Publisher: ASME
Article Type: Research-Article
J. Med. Devices.
Paper No: MED-24-1087
Published Online: September 28, 2024
Journal Articles
Gregory S. Hirst, Sean J. Crimmins, Benjamin P. Wankum, Keely Buesing, Mark A. Carlson, Benjamin S. Terry
Journal:
Journal of Medical Devices
Publisher: ASME
Article Type: Research-Article
J. Med. Devices. December 2024, 18(4): 041006.
Paper No: MED-24-1078
Published Online: September 21, 2024
Image
in An Intra-Abdominal Catheter Placement Device With Automatic and Accurate Mechanical Indication of Abdominal Cavity Entry for Laparoscopic Telesurgery
> Journal of Medical Devices
Published Online: September 21, 2024
Fig. 1 The RAPID, a catheter placement device used to indicate entry into the peritoneal cavity More about this image found in The RAPID, a catheter placement device used to indicate entry into the peri...
Image
in An Intra-Abdominal Catheter Placement Device With Automatic and Accurate Mechanical Indication of Abdominal Cavity Entry for Laparoscopic Telesurgery
> Journal of Medical Devices
Published Online: September 21, 2024
Fig. 2 Visualization of RAPID insertions with varying air pressures. The optimal pressure indicates entry at the peritoneal cavity. High pressure will result in a false positive, incorrectly indicating entry. Low pressure will result in a false negative, not indicating entry at all, leading to ove... More about this image found in Visualization of RAPID insertions with varying air pressures. The optimal p...
Image
in An Intra-Abdominal Catheter Placement Device With Automatic and Accurate Mechanical Indication of Abdominal Cavity Entry for Laparoscopic Telesurgery
> Journal of Medical Devices
Published Online: September 21, 2024
Fig. 3 Methodology for cadaver testing. ( a ) Experimental setup for cadaver testing and ( b ) Veress needle placement locations for the three test categories: X, M, and L. More about this image found in Methodology for cadaver testing. ( a ) Experimental setup for cadaver testi...
Image
in An Intra-Abdominal Catheter Placement Device With Automatic and Accurate Mechanical Indication of Abdominal Cavity Entry for Laparoscopic Telesurgery
> Journal of Medical Devices
Published Online: September 21, 2024
Fig. 4 Success and failure criteria for the initial peritoneal cavity insufflation and preperitoneal insufflation testing. In each cadaver, the initial peritoneal cavity insufflation testing preceded the preperitoneal insufflation testing. More about this image found in Success and failure criteria for the initial peritoneal cavity insufflation...
Image
in An Intra-Abdominal Catheter Placement Device With Automatic and Accurate Mechanical Indication of Abdominal Cavity Entry for Laparoscopic Telesurgery
> Journal of Medical Devices
Published Online: September 21, 2024
Fig. 5 Diagram of the RAPID. Each number represents a component listed in Table 1 . More about this image found in Diagram of the RAPID. Each number represents a component listed in Table 1...
Image
in An Intra-Abdominal Catheter Placement Device With Automatic and Accurate Mechanical Indication of Abdominal Cavity Entry for Laparoscopic Telesurgery
> Journal of Medical Devices
Published Online: September 21, 2024
Fig. 6 Methodology for RAPID testing: ( a ) Experimental setup for RAPID testing and ( b ) schematic of the X, M, and L placement categories for the RAPID More about this image found in Methodology for RAPID testing: ( a ) Experimental setup for RAPID testing a...
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