Biomedical Engineering Reference
In-Depth Information
10.7 ACKNOWLEDGMENTS
The author is grateful to Second Sight Medical Products, Inc. for the support and to
Amy Hines for her contributions to this work.
10.8 REFERENCES
1. S. Harguindey, J.L. Pedraz, R. Garcia Canero, J. Perez de Diego, and E.J. Cragoe, Hydrogen ion-dependent
oncogenesis and parallel new avenues to cancer prevention and treatment using a H
-mediated unifying
approach: pH-related and pH-unrelated mechanisms.
Crit. Rev. Oncog
.
6
, 1-33 (1995).
2. S. Grinstein, D. Rotin, and M.J. Mason, Na
/H
exchange and growth factor-induced cytosolic pH
changes. Role in cellular proliferation.
Biochim. Biophys. Acta
988
, 73-97 (1989).
3. M. Garcia-Martin, G. Herigault, C. Remy, R. Farion, P. Ballesteros, J. Coles, S. Cerdan, and A. Ziegler,
Mapping extracellular pH in rat brain gliomas in vivo by 1h magnetic resonance spectroscopic imaging:
comparison with maps of metabolites.
Cancer Research
61
, 6524-6531 (2001).
4. I.N. Rich, D. Worthington-White, O.A. Garden, and P. Musk, Apoptosis of leukemic cells accompanies
reduction in intracellular pH after targeted inhibition of the Na
/H
exchanger.
Blood
95
, 1427-1434
(2000).
5. D. Pirkebner, M. Fuetschi, W. Wittmann, H. Weiss, T. Haller, H. Schramer, R. Margereiter, and
A. Amberger, Reduction of intracellular pH inhibits constitutive expression of cyclooxygenase-2 in
human colon cancer cells.
J. Cell. Physiol
.
198
, 295-301 (2004).
6. S. Marzouk, S. Ufer, R. Buck, T. Johnson, L. Dunlap, and W. Cascio, Electrodeposited iridium oxide pH
electrode for measurement of extracellular myocardial acidosis during acute ischemia.
Anal. Chem
.
70
,
5054-5061 (1998).
7. A.M. Sayed, S. Marzouk, R. Buck, L. Dunlap, T. Johnson, and W. Cascio, Measurement of extracellular
pH, K
, and lactate in ischemic heart.
Anal. Biochem.
308
, 52-60 (2002).
8. J.C. Ojoo, S.A. Mulrennan, J.A. Kastelik, A.H. Morice, and A.E. Redington, Exhaled breath condensate
pH and exhaled nitric oxide in allergic asthma and in cystic fi brosis.
Thorax
60
, 22-26 (2005).
9. E.A. Oakley and P.L. Barnett, Is acid base determination an accurate predictor of pyloric stenosis?
J. Paediatr. Child Health
36
, 587-589 (2000).
10. S.C. Kung, S.A. Morse, E. Bloom, and R.M. Raja, Acid-base balance and nutrition in peritoneal dialy-
sis.
Adv. Perit. Dial
.
17
, 235-237 (2001).
11. C. Tevi-benissan, L. Belec, M. Levy, V. Schneider-Fauveau, A.I. Mohamed, M. Hallouin, M. Matta, and
G. Gresenguet, In vivo semen-associated pH neutralization of cervicovaginal secretions.
Clin. Diagn.
Lab. Immunol.
4
, 367-374 (1997).
12. J. Ongradi, L. Ceccherini-Nelli, M. Pistello, S. Specter, and M. Bendinelli, Acid sensitivity of cell-free
and cell-associated HIV-1: clinical implications.
AIDS Res. Hum. Retroviruses
6
, 1433-1436 (1990).
13. M. Romanelli, G. Gaggio, A. Piaggesi, M. Coluccia, and F. Rizzello, Technological advances in wound
bed measurements.
Wounds
14
, 58-66 (2002).
14. L. Cammilli, L. Alcidi, G. Papeschi, V. Wiechmann, L. Padeletti, and G. Grassi, Preliminary experience
with the pH-triggered pacemaker.
Pacing Clin. Electrophysiol.
1
, 448-457 (1978).
15. E.M.R. Doppenberg, A. Zauner, R. Bullock, J.D. Ward, P.P. Fatouros, and H.F. Young, Correlations
between brain tissue oxygen tension, carbon dioxide tension, pH, and cerebral blood fl ow - a better way
of monitoring the severely injured brain?
Surg. Neurol
.
49
, 650-654 (1998).
16. E. Budzynski, N.D. Wangsa-Wirawan, L. Padnick-Silver, D.L. Hatchell, and R.A. Linsenmeier,
Intraretinal pH in diabetic cats.
Cur. Eye Res
.
30
, 229-240 (2005).
17. C.Q. Huang, P.M. Carter, and R.K. Shepherd, Stimulus induced pH changes in cochlear implants: an in
vitro and in vivo study.
Ann. Biomed. Eng
.
29
, 791-802 (2001).
18. A.P. Chu, K. Morris, R.J. Greenberg, and D.M. Zhou, Stimulus induced pH changes in retinal implants,
in
Proceedings of 26th Annual International Conference of the IEEE Engineering in Medicine and
Biology Society
, pp. 4160-4163. San Francisco (2004).
Search WWH ::
Custom Search