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Items: 1 to 20 of 113

1.

Attenuation of the near-infrared and red photoplethysmographic signal by different depth of tissues.

Niklas M, Moser U, Buehrer A, Valentin R, Abicht J, Baschnegger H, Christ F.

Eur J Med Res. 1998 May 12;3(5):241-8.

PMID:
9580570
2.

Changes in the arteriolar volume pulse of the finger during various degrees of tilt using near infra-red and red photoplethysmography.

Christ F, Nehring I, Abicht J, Baranov V, Kotov A, Gartside I, Gamble J, Messmer K.

Eur J Med Res. 1998 May 12;3(5):249-55.

PMID:
9580571
3.

Time discrete, near infrared photoplethysmography (NIRP) for non-invasive investigation of the volume pulse in man.

Christ F, Athelogou M, Niklas M, Baschnegger H, Moser CM, Peter K, Messmer K.

Eur J Med Res. 1996 Feb 22;1(5):237-43.

PMID:
9374444
4.

Does red blood cell transfusion change the near infra red photoplethysmography signal in infants?

Seidl T, Genzel-Boroviczény O, Abicht JM, Christ F.

Intensive Care Med. 2004 Aug;30(8):1602-6. Epub 2004 Apr 30.

PMID:
15118818
5.

Non-invasive monitoring of muscle blood perfusion by photoplethysmography: evaluation of a new application.

Sandberg M, Zhang Q, Styf J, Gerdle B, Lindberg LG.

Acta Physiol Scand. 2005 Apr;183(4):335-43.

PMID:
15799770
7.

Non-invasive continuous estimation of blood flow changes in human patellar bone.

Näslund J, Pettersson J, Lundeberg T, Linnarsson D, Lindberg LG.

Med Biol Eng Comput. 2006 Jun;44(6):501-9. Epub 2006 Jun 3.

PMID:
16937201
8.

Simultaneous recording of skin blood pulsations at different vascular depths by multiwavelength photoplethysmography.

Spigulis J, Gailite L, Lihachev A, Erts R.

Appl Opt. 2007 Apr 1;46(10):1754-9.

PMID:
17356618
9.

A technique based on laser Doppler flowmetry and photoplethysmography for simultaneously monitoring blood flow at different tissue depths.

Hagblad J, Lindberg LG, Kaisdotter Andersson A, Bergstrand S, Lindgren M, Ek AC, Folke M, Lindén M.

Med Biol Eng Comput. 2010 May;48(5):415-22. doi: 10.1007/s11517-010-0577-2. Epub 2010 Jan 28.

PMID:
20107915
10.

Evidence for skin microvascular compartmentalization by laser-Doppler and photoplethysmographic techniques.

Hales JR, Roberts RG, Westerman RA, Stephens FR, Fawcett AA.

Int J Microcirc Clin Exp. 1993 Feb;12(1):99-104.

PMID:
8473073
12.

Investigation of the human oesophagus as a new monitoring site for blood oxygen saturation.

Kyriacou PA, Moye AR, Choi DM, Langford RM, Jones DP.

Physiol Meas. 2001 Feb;22(1):223-32.

PMID:
11236883
13.
14.

Pulsatile blood flow in human bone assessed by laser-Doppler flowmetry and the interpretation of photoplethysmographic signals.

Binzoni T, Tchernin D, Hyacinthe JN, Van De Ville D, Richiardi J.

Physiol Meas. 2013 Mar;34(3):N25-40. doi: 10.1088/0967-3334/34/3/N25. Epub 2013 Feb 26.

PMID:
23443008
15.
16.

Photoplethysmographic assessment of hemodynamic variations using pulsatile tissue blood volume.

Foo JY, Lim CS, Wilson SJ.

Angiology. 2008 Dec-2009 Jan;59(6):745-52. doi: 10.1177/0003319708314245. Epub 2008 Apr 2.

PMID:
18388056
17.

An improved reflective photoplethysmograph probe design for detection of an arterial blood flow.

Zikić D.

J Med Eng Technol. 2008 Jan-Feb;32(1):23-9. doi: 10.1080/03091900600703529.

PMID:
18183517
18.

Calibrated photoplethysmographic estimation of digital pulse volume and arterial compliance.

Raamat R, Jagomägi K, Talts J.

Clin Physiol Funct Imaging. 2007 Nov;27(6):354-62.

PMID:
17944657
19.

A system for investigating oesophageal photoplethysmographic signals in anaesthetised patients.

Kyriacou PA, Moye AR, Gregg A, Choi DM, Langford RM, Jones DP.

Med Biol Eng Comput. 1999 Sep;37(5):639-43.

PMID:
10723903
20.
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