The broken lines depicting a sequestration device having a fluid reservoir connected thereto in
The remaining broken lines depict portions of the annular magnet housing that form no part of the claimed design.
Patent Grant
D890362
The broken lines depicting a sequestration device having a fluid reservoir connected thereto in
The remaining broken lines depict portions of the annular magnet housing that form no part of the claimed design.
| Number | Name | Date | Kind |
|---|---|---|---|
| D490531 | Feldman | May 2004 | S |
| D679831 | Greenizen | Apr 2013 | S |
| D683046 | Yin | May 2013 | S |
| D729662 | Gifford | May 2015 | S |
| 20110023729 | Plaisted | Feb 2011 | A1 |
| 20180127741 | Feistel | May 2018 | A1 |
| 20190309245 | Shimagaki | Oct 2019 | A1 |
| Entry |
|---|
| Blanker, M, et al., Voided Volumes: Normal Values and Relation to Lower Urinary Tract Symptoms in Elderly Men, A Community-Based Study, Urology, 2001, 57: 1093-1099. |
| Chen, Peng, et al., Inkjet-Print Micromagnet Array on Glass Slides for Immunomagnetic Enrichment of Circulating Tumor Cells, Annals of Biomedical Engineering, Aug. 20, 2015, 44 (5): 1710-1720. |
| Chen, Peng, et al., Microscale Magnetic Field Modulation for Enhanced Capture and Distribution of Rare Circulating Tumor Cells, Scientific Reports, Mar. 4, 2015, 5: 8745. |
| Desitter, I.; et al., A New Device for Rapid Isolation by Size and Characterization of Rare Circulating Tumor Cells, Anticancer Research, 2011, 31 (2): 427-442. |
| Esmaeilsabzail, H, et al., Detection and isolation of circulating tumor cells: principles and methods, Biotechnol. Adv., 2013, 31 (7): 1063-84. |
| Hoshino, Kazunori, et al., Microchip-based immunomagnetic detection of circulating tumor cells, Lab on a Chip, Oct. 2011, 11 (20): 3449-3457. |
| Hoshino, Kazunori, et al., Computational Analysis of Microfluidic Immunomagnetic Rare Cell Separation from a Particulate Blood Flow, Analytical Chemistry, May 15, 2012, 84 (10): 4292-4299. |
| Huang, Yu-Yen, et al., Screening and Molecular Analysis of Single Circulating Tumor Cells Using Micromagnet Array, Scientific Reports, Nov. 5, 2015, 5: 16047. |
| Huang, Yu-yen, et al., Immunomagnetic nanoscreening of circulating tumor cells with a motion controlled microfluidic system, Biomedical Microdevices, Oct. 30, 2012, 15 (4): 673-681. |
| Luecke, Klaus, et al., The Gilupi Cellcollector as an in vivo tool for circulating tumor cell enumeration and molecular characterization in lung cancer patients, ASCO Annual Meeting Proceedings, 2015, vol. 33, No. 15 suppl. |
| Paterlini-Brechot, P, et al., Circulating tumor cells (CTC) detection: Clinical impact and future directions, Cancer Lett., 2007, 253 (2): 180-204. |
| Peng, Chen, et al., Multiscale immunomagnetic enrichment of circulating tumor cells: from tubes to microchips, Lab on a Chip, 2014, 14: 446-458. |
| Saucedo-Zeni, Nadia; et al., A novel method for the in vivo isolation of circulating tumor cells from peripheral blood of cancer patients using a functionalized and structured medical wire, International Journal of Oncology, 2012, 41 (4): 1241-1250. |
| Scheumann, N, et al., Numeration and molecular characterization of circulating tumor cells in lung cancer patients using the Gilupi Cellcollector, an effective in vivo device for capturing CTCS, Annals of Oncology, 2015, 26: 14. |
| Nagrath, Sunitha, et al., Isolation of rare circulating tumour cells in cancer patients by microchip technology, Nature, Dec. 2007, 450 (7173): 1235-1239. |
| Elsheikh, T., Urine Cytology Challenges and Pitfalls, www.ahn.org/sites/default/files/file/elsheikh-2. |