Diana L. Farmer
University of California, Davis
269 Papers
2.2K Citations
Diana L. Farmer is an academic researcher from University of California, Davis. The author has contributed to research in topics: Medicine & Fetal surgery. The author has an hindex of 52, co-authored 235 publications. Previous affiliations of Diana L. Farmer include San Joaquin General Hospital & Shriners Hospitals for Children.
Chat about Author
Papers
Efficacy of radiofrequency ablation for twin-reversed arterial perfusion sequence.
Hanmin Lee,Amy J. Wagner,Edgar D. Sy,Robert H. Ball,Vickie A. Feldstein,Ruth B. Goldstein,Diana L. Farmer +6 more
TL;DR: In this article, radiofrequency ablation of the acardiac twin effectively protects the pump twin from highoutput cardiac failure and death in a twin-reversed arterial perfusion (TRAP) sequence.
Prosthesis Embodiment in Lower Extremity Limb Loss: A Narrative Review
Tuyet Thao Nguyen,Bingjie Wang,Haddy Alas,Quincy Jones,Chase Clark,Sabrina Lazar,Shaddy Malik,Joshua Graham,Yasmeen Talaat,Chris Shin,Jonathon Schofield,Toran Macleod,Laduan Smedley,Clifford Pereira,Wilsaan M. Joiner,R. L. Randall,Diana L. Farmer,Aijun Wang,Dake Hao,Spencer Greene,Ravi Sood,Danielle Brown,Rachel Russo,Kingsley Manoharan,Andrew Simpkins,Andrew Li +25 more
Intraoperative radiation therapy for high-risk pediatric neuroblastoma
Daphne A. Haas-Kogan,Benjamin M Fisch,William M. Wara,Patrick S. Swift,Diana L. Farmer,Michael R. Harrison,Craig T. Albanese,Vivian Weinberg,Katherine K. Matthay +8 more
TL;DR: IORT as the sole radiotherapy to the primary was inadequate for patients with extensive adenopathy or an STR, and the use of IORT as a boost in conjunction with external beam radiation therapy is explored.
In Utero Transplantation of Placenta-Derived Mesenchymal Stromal Cells for Potential Fetal Treatment of Hemophilia A.
Priyadarsini Kumar,Kewa Gao,Kewa Gao,Chuwang Wang,Chuwang Wang,Christopher D. Pivetti,Lee Lankford,Diana L. Farmer,Aijun Wang +8 more
TL;DR: Fe feasibility of the approach to obtain placenta-derived mesenchymal stromal cells from first trimester chorionic villus tissue, genetically modify them with the FVIII gene, and transplant them in utero for cell-mediated gene therapy of HA is shown.
High density placental mesenchymal stromal cells provide neuronal preservation and improve motor function following in utero treatment of ovine myelomeningocele.
Melissa A. Vanover,Christopher D. Pivetti,Lee Lankford,Priyadarsini Kumar,Laura A. Galganski,Sandra K Kabagambe,Benjamin A. Keller,James Becker,Y. Julia Chen,Karen Chung,Chelsey Lee,Zachary J. Paxton,Bailey Deal,Laura F. Goodman,Jamie E. Anderson,Guy Jensen,Aijun Wang,Diana L. Farmer +17 more
TL;DR: Fetal repair of myelomeningocele with high density PMSC-ECM resulted in increased large neuron density, which strongly correlated with improved motor function.