Biomedical Engineering Reference
In-Depth Information
Moussy, Y. Bioartificial kidney. I. Theoretical analysis of convective flow in hollow fiber modules: application
to a bioartificial hemofilter,
Biotechnol Bioeng
, 68, 2, 2000, 142-52.
Mullin, EJ, Metcalfe, MS and Maddern, GJ. Artificial liver support: potential to retard regeneration?
Arch
Surg
, 139, 6, 2004, 670-7.
Neff, G. Hip arthroplasty according to Smith-Peterson or Judet,
Helv Chir Acta
, 21, 5-6, 1954, 380-3.
Nikolovski, J, Gulari, E and Humes, HD. Design engineering of a bioartificial renal tubule cell therapy device,
Cell Transplant
, 8, 4, 1999, 351-64.
Noble, PC, Gordon, MJ, Weiss, JM, et al. Does total knee replacement restore normal knee function?
Clin
Orthop
, 431, 2005, 157-65.
Nojiri, C. Left ventricular assist system with a magnetically levitated impeller technology,
Nippon Geka
Gakkai Zasshi
, 103, 9, 2002, 607-10.
Noon, GP, Ball, JW, Jr. and Papaconstantinou, HT. Clinical experience with BioMedicus centrifugal ven-
tricular support in 172 patients,
Artif Organs
, 19, 7, 1995, 756-60.
Noon, GP, Morley, DL, Irwin, S, et al. Clinical experience with the MicroMed DeBakey ventricular assist
device,
Ann Thorac Surg
, 71, 90030, 2001, 133S-138.
Noordenbos, J, Dore, C and Hansbrough, JF. Safety and efficacy of TransCyte for the treatment of partial-
thickness burns,
J Burn Care Rehabil
, 20, 4, 1999, 275-81.
Nose, Y. Design and development strategy for the rotary blood pump,
Artif Organs
, 22, 6, 1998, 438-46.
Nose, Y, Yoshikawa, M, Murabayashi, S, et al. Development of rotary blood pump technology: past, present,
and future,
Artif Organs
, 24, 6, 2000, 412-20.
Okada, Y, Ueno, S, Ohishi, T, et al. Magnetically levitated motor for rotary blood pumps,
Artif Organs
, 21, 7,
1997, 739-45.
Ozgen, N, Terashima, M, Aung, T, et al. Evaluation of long-term transport ability of a bioartificial renal tubule
device using LLC-PK1 cells,
Nephrol Dial Transplant
, 19, 9, 2004, 2198-207.
Petrou, S and Edwards, L. Cost effectiveness analysis of neonatal extracorporeal membrane oxygenation based
on four year results from the UK Collaborative ECMO Trial,
Arch Dis Child Fetal Neonatal Ed
, 89, 3,
2004, F263-8.
Pierce, WS. Permanent heart substitution: better solutions lie ahead,
Jama
, 259, 6, 1988, 891.
Polla, DL, Erdman, AG, Robbins, WP, et al. Microdevices in medicine,
Annu Rev Biomed Eng
, 2, 2000,
551-76.
Portner, PM. Permanent Mechanical Circulatory Assistance,
Heart and Lung Transplantation
, second edition,
2001.
Prokop, A. Bioartificial organs in the twenty-first century: nanobiological devices,
Ann N Y Acad Sci
, 944,
2001, 472-90.
Ranawat, CS, Insall, J and Shine, J. Duo-condylar knee replacement,
Curr Pract Orthop Surg
, 6, 1975,
28-35.
Reach, G, Poussier, P, Sausse, A, et al. Functional evaluation of a bioartificial pancreas using isolated islets
perifused with blood ultrafiltrate,
Diabetes
, 30, 4, 1981, 296-301.
Remadi, JP, Marticho, P, Butoi, I, et al. Clinical experience with the mini-extracorporeal circulation system: an
evolution or a revolution?
Ann Thorac Surg
, 77, 6, 2004, 2172-5; discussion 2176.
Richards Grayson, AC, Scheidt Shawgo, R, Li, Y, et al. Electronic MEMS for triggered delivery,
Adv Drug
Deliv Rev
, 56, 2, 2004, 173-84.
Robbins, RC, Kown, MH, Portner, PM, et al. The totally implantable Novacor left ventricular assist system,
Ann Thorac Surg
, 71, 90030, 2001, 162S-165.
Rose, EA, Gelijns, AC, Moskowitz, AJ, et al. Long-term mechanical left ventricular assist device for end-stage
heart failure,
N Engl J Med
, 345, 20, 2001, 1435-43.
Roy, S, Ferrara, LA, Fleischman, AJ, et al. Microelectromechanical systems and neurosurgery: a new era in a
new millennium,
Neurosurgery
, 49, 4, 2001, 779-97; discussion 797-8.
Rubinstein, JT. How cochlear implants encode speech,
Curr Opin Otolaryngol Head Neck Surg
, 12, 5, 2004,
444-8.
Schmidt, P, Andersson, G, Blomberg, J, et al. Possible transmission of zoonoses in xenotransplantation:
porcine endogenous retroviruses (PERVs) from an immunological point of view,
Acta Vet Scand
Suppl
, 99, 2004, 27-34.
Schuster, MD, Kocher, AA, Seki, T, et al. Myocardial neovascularization by bone marrow angioblasts results
in cardiomyocyte regeneration,
Am J Physiol Heart Circ Physiol
, 287, 2, 2004, H525-32.
Search WWH ::
Custom Search