Variation in Cerebral Oxygenation during Whole Blood Donation: The Impact of Applied Muscle Tension

Kowalsky, Jennifer M.

26 July 2011

No description available.

Psychology

Cerebral oxygenation

whole blood donation

muscle tension

Determinação de elementos químicos inorgânicos em amostras de sangue total humano e de animais de experimentação (hamster dourado e cavalo da raça crioula) pela técnica de fluorescência de raios X(EDXRF) / Inorganic elements determination in human and animal whole blood samples by X-ray fluorescence technique (EDXRF)

Redigolo, Marcelo Miyada

24 May 2011

O sangue é uma suspensão de células contidas num líquido complexo chamado plasma. O termo sangue total refere-se a amostras de sangue com a totalidade de seus constituintes, parte sólida e líquida. Sendo os elementos químicos responsáveis por funções essenciais, como regulação osmótica, frequência cardíaca e contratibilidade, coagulação sanguínea e excitabilidade neuromuscular. A determinação de elementos químicos em fluidos corporais como sangue, soro, plasma, tecido e urina é usada como monitor de parte ou de todo o organismo. Nesse trabalho, utilizou-se a técnica de fluorescência de raios X (EDXRF) para análise de amostras de sangue total humano e animal, hamsters da espécie dourada (Mesocricetus auratus) e cavalos da raça crioula (Equus caballus). Nas amostras de sangue humano, foram determinados intervalos de referência de Na (1788 - 1826 μg g-1), Mg (63 - 75 μg g-1), P (602 - 676 μg g-1), S (1519 - 1718 μg g-1), Cl (2743 - 2867 μg g-1), K (1508 - 1630 μg g-1), Ca (214 - 228 μg g-1), Cu (4 - 6 μg g-1) e Zn (1 - 3 μg g-1). Foram determinados intervalos de referência de Na (1714 - 1819 μg g-1), Mg (51 - 79 μg g-1), P (970 - 1080 μg g-1), S (1231 - 1739 μg g-1), Cl (2775 - 2865 μg g-1), K (1968 - 2248 μg g-1), Ca (209 - 257 μg g-1), Cu (4 - 6 μg g-1) e Zn (3 - 5 μg g-1) para amostras de sangue de hamster dourado. As amostras de sangue de cavalo da raça crioula apresentaram os intervalos de: Na (1955 - 2013 μg g-1), Mg (51 - 75 μg g-1), P (443 - 476 μg g-1), S (1038 - 1140 μg g-1), Cl (2388 - 2574 μg g-1), K (1678 - 1753 μg g-1), Ca (202 - 213 μg g-1), Cu (4,1 - 4,5 μg g-1) e Zn (2,0 - 2,2 μg g-1). Estudo comparativo dos resultados entre as técnicas de análise por ativação neutrônica (NAA) e EDXRF indica a igualdade de desempenho das técnicas analíticas na análise de matrizes biológicas. Os resultados contribuem no estabelecimento de intervalos de referência para a população brasileira saudável e para as referidas espécies de animais. / Blood is a suspension of cells contained in a complex liquid called plasma. The term whole blood refers to samples with both solid and liquid parts. Inorganic elements are responsible for essential functions, such as osmotic regulation, cardiac frequency and contractibility, blood clotting and neuromuscular excitability. The determination of inorganic elements in corporeal fluids such as blood, serum, plasma, tissue and urine is used as a monitor for a part or the whole organism. In this work, the X-Ray fluorescence technique (EDXRF) was used for the determination of inorganic elements in whole blood samples from humans and animals (golden hamsters, Mesocricetus auratus and crioula breed horses, Equus caballus). The reference intervals of Na (1788 - 1826 μg g-1), Mg (63 - 75 μg g-1), P (602 - 676 μg g-1), S (1519 - 1718 μg g-1), Cl (2743 - 2867 μg g-1), K (1508 - 1630 μg g-1), Ca (214 - 228 μg g-1), Cu (4 -6 μg g-1) e Zn (1 - 3 μg g-1) were determined for human blood. The reference intervals, for golden hamster blood were found to be: Na (1714 - 1819 μg g-1), Mg (51 - 79 μg g-1), P (970 - 1080 μg g-1), S (1231 - 1739 μg g-1), Cl (2775 - 2865 μg g-1), K (1968 - 2248 μg g-1), Ca (209 - 257 μg g-1), Cu (4 - 6 μg g-1) e Zn (3 -5 μg g-1). The reference intervals, for crioula breed horse blood, showed to be: Na (1955 - 2013 μg g-1), Mg (51 - 75 μg g-1), P (443 - 476 μg g-1), S (1038 - 1140 μg g-1), Cl (2388 - 2574 μg g-1), K (1678 - 1753 μg g-1), Ca (202 - 213 μg g-1), Cu (4,1 - 4,5 μg g-1) e Zn (2,0 - 2,2 μg g-1). Comparative study between NAA and EDXRF, both techniques showed the same performance for the analyses of biological matrices. The results contribute for the establishment of reference intervals for the Brazilian healthy population and the referred animal species.

animal whole blood

determinação de elementos inorgânicos

fluorescência de raios X

human whole blood

inorganic elements determination

intervalos de referência

reference intervals

sangue total animal

sangue total humano

X-ray fluorescence

Adenovirus-mediated Gene Therapy of Prostate Cancer

Danielsson, Angelika

January 2010

Adenovirus-mediated gene therapy is a potential complement to standard cancer treatments. Advantages are that vectors can be used to target tumors and that replicating viruses lead to increased therapeutic dosage. In this thesis, an oncolytic serotype 5 adenovirus (Ad5), Ad[i/PPT-E1A, E3], was developed where viral replication is controlled by the insulator-shielded (i) prostate-specific PPT promoter. The adenoviral E3 region was inserted for its immune regulatory and lysis functions. Ad[i/PPT-E1A, E3] had improved cytotoxic abilities both in vitro and in a prostate cancer xenograft mouse model compared to a virus lacking the E3 region. To further improve adenoviral vectors, the histone deacetylase inhibitor (HDACi) FK228 was studied. FK228 has been proposed to enhance the effect of adenoviral therapy by upregulation of CAR, the primary receptor for Ad5 infection. In the present study, we observed that FK228 promotes transgene expression even better when administered after viral transduction, indicating a post-transductional enhancement of transgene expression. Another interesting finding was that FK228 reduced transgene expression from the PPT promoter in the prostate cancer cell line LNCaP. This is explained by the fact that different HDACi have the ability to provoke a neuroendocrine phenotype of LNCaP. A potential drawback with adenoviral gene therapy is the rapid clearance of the virus from the circulation. Viral particles have been coated with polyethylene glycol (PEG) to evade immune recognition, a strategy that works well in mouse models. However, less is known about the effects of adenoviral PEGylation in human blood. We have studied cell interactions and immune responses to PEGylated and uncoated Ad5 vectors in human whole blood using a blood loop model with constant blood flow. Limited effects of PEGylation were observed in human blood, which were associated with the neutralizing ability of the donor blood. An important finding that donors with high neutralizing ability in whole blood do not necessarily have neutralizing antibodies against the virus strongly implies that neutralization should be measured in whole blood.

adenovirus

adenoviral vector

oncolytic virus

gene therapy

prostate cancer

PEGylation

HDAC inhibitor

whole blood model

whole blood neutralization assay

MEDICINE

MEDICIN

Determinação de elementos químicos inorgânicos em amostras de sangue total humano e de animais de experimentação (hamster dourado e cavalo da raça crioula) pela técnica de fluorescência de raios X(EDXRF) / Inorganic elements determination in human and animal whole blood samples by X-ray fluorescence technique (EDXRF)

Marcelo Miyada Redigolo

24 May 2011

O sangue é uma suspensão de células contidas num líquido complexo chamado plasma. O termo sangue total refere-se a amostras de sangue com a totalidade de seus constituintes, parte sólida e líquida. Sendo os elementos químicos responsáveis por funções essenciais, como regulação osmótica, frequência cardíaca e contratibilidade, coagulação sanguínea e excitabilidade neuromuscular. A determinação de elementos químicos em fluidos corporais como sangue, soro, plasma, tecido e urina é usada como monitor de parte ou de todo o organismo. Nesse trabalho, utilizou-se a técnica de fluorescência de raios X (EDXRF) para análise de amostras de sangue total humano e animal, hamsters da espécie dourada (Mesocricetus auratus) e cavalos da raça crioula (Equus caballus). Nas amostras de sangue humano, foram determinados intervalos de referência de Na (1788 - 1826 μg g-1), Mg (63 - 75 μg g-1), P (602 - 676 μg g-1), S (1519 - 1718 μg g-1), Cl (2743 - 2867 μg g-1), K (1508 - 1630 μg g-1), Ca (214 - 228 μg g-1), Cu (4 - 6 μg g-1) e Zn (1 - 3 μg g-1). Foram determinados intervalos de referência de Na (1714 - 1819 μg g-1), Mg (51 - 79 μg g-1), P (970 - 1080 μg g-1), S (1231 - 1739 μg g-1), Cl (2775 - 2865 μg g-1), K (1968 - 2248 μg g-1), Ca (209 - 257 μg g-1), Cu (4 - 6 μg g-1) e Zn (3 - 5 μg g-1) para amostras de sangue de hamster dourado. As amostras de sangue de cavalo da raça crioula apresentaram os intervalos de: Na (1955 - 2013 μg g-1), Mg (51 - 75 μg g-1), P (443 - 476 μg g-1), S (1038 - 1140 μg g-1), Cl (2388 - 2574 μg g-1), K (1678 - 1753 μg g-1), Ca (202 - 213 μg g-1), Cu (4,1 - 4,5 μg g-1) e Zn (2,0 - 2,2 μg g-1). Estudo comparativo dos resultados entre as técnicas de análise por ativação neutrônica (NAA) e EDXRF indica a igualdade de desempenho das técnicas analíticas na análise de matrizes biológicas. Os resultados contribuem no estabelecimento de intervalos de referência para a população brasileira saudável e para as referidas espécies de animais. / Blood is a suspension of cells contained in a complex liquid called plasma. The term whole blood refers to samples with both solid and liquid parts. Inorganic elements are responsible for essential functions, such as osmotic regulation, cardiac frequency and contractibility, blood clotting and neuromuscular excitability. The determination of inorganic elements in corporeal fluids such as blood, serum, plasma, tissue and urine is used as a monitor for a part or the whole organism. In this work, the X-Ray fluorescence technique (EDXRF) was used for the determination of inorganic elements in whole blood samples from humans and animals (golden hamsters, Mesocricetus auratus and crioula breed horses, Equus caballus). The reference intervals of Na (1788 - 1826 μg g-1), Mg (63 - 75 μg g-1), P (602 - 676 μg g-1), S (1519 - 1718 μg g-1), Cl (2743 - 2867 μg g-1), K (1508 - 1630 μg g-1), Ca (214 - 228 μg g-1), Cu (4 -6 μg g-1) e Zn (1 - 3 μg g-1) were determined for human blood. The reference intervals, for golden hamster blood were found to be: Na (1714 - 1819 μg g-1), Mg (51 - 79 μg g-1), P (970 - 1080 μg g-1), S (1231 - 1739 μg g-1), Cl (2775 - 2865 μg g-1), K (1968 - 2248 μg g-1), Ca (209 - 257 μg g-1), Cu (4 - 6 μg g-1) e Zn (3 -5 μg g-1). The reference intervals, for crioula breed horse blood, showed to be: Na (1955 - 2013 μg g-1), Mg (51 - 75 μg g-1), P (443 - 476 μg g-1), S (1038 - 1140 μg g-1), Cl (2388 - 2574 μg g-1), K (1678 - 1753 μg g-1), Ca (202 - 213 μg g-1), Cu (4,1 - 4,5 μg g-1) e Zn (2,0 - 2,2 μg g-1). Comparative study between NAA and EDXRF, both techniques showed the same performance for the analyses of biological matrices. The results contribute for the establishment of reference intervals for the Brazilian healthy population and the referred animal species.

determinação de elementos inorgânicos

fluorescência de raios X

intervalos de referência

sangue total animal

sangue total humano

animal whole blood

human whole blood

inorganic elements determination

reference intervals

X-ray fluorescence

Monitoramento do uso de canábis por condutores de veículo automotor : desenvolvimento de método bioanalítico compatível com a rotina laboratorial da perícia no Brasil

Baggio, Emmanuele Vianna

January 2017

A Cannabis sativa L. é a droga de abuso de uso proscrito mais consumida no mundo. O consumo desta droga por condutores de veículo automotor está associado com o aumento do risco de acidentes de trânsito, com o aumento da gravidade e com o aumento das taxas de mortalidade. O objetivo deste trabalho foi propor métodos analíticos aplicáveis à rotina laboratorial forense para monitoramento do consumo de canábis por condutores. Para tanto, foi utilizada como metodologia a extração líquido-líquido seguida de análise por cromatografia em fase gasosa acoplada a detector de massas para pesquisa de canabinoides em matrizes biológicas como sangue total (ST) e fluido oral (FO). A análise de 11-nor-9-carbóxi-delta9-THC (THC-COOH) em amostras de ST por cromatografia gasosa envolve a derivatização desta molécula e, consequentemente, do THC extraído desta matriz (quando presente), uma vez que ambos estão presentes no mesmo extrato, constituindo mais uma etapa analítica e que requer maior controle das condições de reação. Por outro lado, a detecção de THC em FO pode ser realizada sem a realização desta etapa, o que constitui uma vantagem analítica. A determinação de THC-COOH e THC em ST não demonstrou repetibilidade, o que inviabilizou as análises qualitativas e quantitativas nesta matriz. A detecção de THC em FO se mostrou uma análise simples e passível de validação, porém com limite de detecção (200ng/mL) acima do recomendado pelas guias forenses internacionais (2 ng/mL). A metodologia analítica desenvolvida se mostrou compatível com aplicação na análise confirmatória em casos de intoxicação aguda pelo consumo de canábis, demonstrando a necessidade de utilização de técnicas de concentração de amostras como extração em fase sólida ou microextração em fase sólida, para obtenção de menores limites de detecção, podendo assim ser aplicado na rotina laboratorial para o monitoramento do uso frequente de canábis, e não apenas em casos de intoxicação aguda. Além disso, foi realizada uma abordagem sobre a interpretação da detecção de THC em diferentes matrizes biológicas. / Cannabis sativa L. is the illegal drug of abuse most consumed in the world. The consumption of this drug by motor vehicle drivers is associated with an increased risk of traffic accidents, increased severity and increased mortality rates. The objective of this work was to propose analytical methods applicable to forensic laboratories to verify the consumption of cannabis by drivers. Liquid-liquid extraction followed by gas chromatography (GC) coupled to mass spectrometry (MS) detector has been applied to cannabinoid analysis in biological samples such as whole blood (WB) and oral fluid (OF). The analysis of 11-nor-9-carboxy-delta9-THC (THC-COOH) in WB by GC required the derivatization of this molecule and also involved the derivatization of THC since both were extracted from the same sample. The derivatization constitutes another analytical step, which requires greater control of the reaction conditions. Fortunately, the detection of only THC in OF can be done without performing this step. The determination of THC-COOH and THC in WB did not demonstrate repeatability, which impaired the qualitative and quantitative analyzes in this matrix. The detection of THC in OF proved to be a simple analysis, that could be validated, but the limit of detection (200ng/mL) was higher than the recommended by the international forensic guides (2 ng/mL). The chromatographic method developed was compatible with the application of a confirmatory analysis in acute cannabis intoxication, demonstrating the need to use techniques of samples concentration such as SPE or SPME, in order to obtain lower limits of detection, thus being able to be applied in the laboratory routine for the monitoring of the frequent use of cannabis, and not only in cases of acute intoxication. In addition, it was made an approach of THC detection in different biological matrices.

Cannabis

Metodo bioanalitico

Pericia criminal

THC

Carboxy-THC

Traffic

Oral fluid

Whole blood

GC/MS

Effect of Surface Nanotopography on Blood-Biomaterial Interactions

Ferraz, Natalia

January 2010

Biologically inspired materials are being developed with the aim of improving the integration of medical implants and minimizing non-desirable host reactions. A promising strategy is the design of topographically patterned surfaces that resemble those found in the extracellular environment. Nanoporous alumina has been recognized as a potential biomaterial and as an important template for the fabrication of nanostructures. In this thesis in vitro studies were done to elucidate the role of alumina nanoporosity on the inflammatory response. Specifically, by comparing alumina membranes with two pore sizes (20 and 200 nm in diameter). Complement and platelet activation were evaluated as well as monocyte/macrophage behaviour. Whole blood was incubated with the alumina membranes and thereafter the biomaterial surfaces were evaluated in terms of protein and platelet adhesion as well as procoagulant properties. The fluid phase was analyzed for complement activation products and platelet activation markers. Besides, human mononuclear cells were cultured on the alumina membranes and cell adhesion, viability, morphology and release of pro-inflammatory cytokines were evaluated. The results indicated that nanoporous alumina with 200 nm pores promotes higher complement activation than alumina with 20 nm pores. In addition, platelet response to nanoporous alumina was found to be highly dependent on the material porosity, as reflected by differences in adhesion, PMP generation and procoagulant characteristics. A clear difference in monocyte/macrophage adhesion and activation was found between the two pore size alumina membranes. Few but highly activated cells adhered to the 200 nm membrane in contrast to many but less activated monocytes/macrophages on the 20 nm surface. The outcome of this work emphasizes that nanotopography plays an important role in the host response to biomaterials. Better understanding of molecular interactions on nano-level will undoubtedly play a significant role in biomaterial implant development and will contribute to design strategies for controlling specific biological events.

nanoporous alumina

nanotopography

biomaterial

platelets

complement system

macrophages

whole blood

inflammatory response

Chemistry

Kemi

Immunobiology

Immunbiologi

The Influence of Red Blood Cell Scattering in Optical Pathways of Retinal Vessel Oximetry

LeBlanc, Serge E.

18 February 2011

The ability to measure the oxygen saturation, oximetry, of retinal blood both non-invasively and in-vivo has been a goal of eye research for years. Retinal oximetry can in principle be achieved from the measurement of the reflectance spectrum of the ocular fundus. Oximetry calculations are however complicated by the scattering of red blood cells, the different pathways of light through blood and the ocular tissues that light interacts with before exiting the eye. The goal of this thesis was to investigate the influence of red blood cell scattering for different light paths relevant to retinal oximetry. Results of in-vitro whole blood experiments found calculated oxygen saturation differences between blood samples measured under different retinal light paths, and these differences did not depend on the absorbance path length. We also showed that the calculated oxygen saturation value determined by a multiple linear regression Beer-Lambert absorbance model depended on the wavelength range chosen for analysis. The wavelength dependency on the calculated oxygen saturation value is due in part to the correlation that exists between the oxyhaemoglobin and deoxyhaemoglobin extinction coefficient spectra and to errors in the assumptions built into the Beer-Lambert absorbance model. A wavelength region with low correlation between the oxyhaemoglobin and deoxyhaemoglobin extinction coefficients was found that is hypothesized to be a good range to calculate oxygen saturation using a multiple linear regression approach.

retinal oximetry

whole blood oximetry

blood spectroscopy

Beer-Lambert

red blood cell scattering

The Influence of Red Blood Cell Scattering in Optical Pathways of Retinal Vessel Oximetry

LeBlanc, Serge E.

18 February 2011

The ability to measure the oxygen saturation, oximetry, of retinal blood both non-invasively and in-vivo has been a goal of eye research for years. Retinal oximetry can in principle be achieved from the measurement of the reflectance spectrum of the ocular fundus. Oximetry calculations are however complicated by the scattering of red blood cells, the different pathways of light through blood and the ocular tissues that light interacts with before exiting the eye. The goal of this thesis was to investigate the influence of red blood cell scattering for different light paths relevant to retinal oximetry. Results of in-vitro whole blood experiments found calculated oxygen saturation differences between blood samples measured under different retinal light paths, and these differences did not depend on the absorbance path length. We also showed that the calculated oxygen saturation value determined by a multiple linear regression Beer-Lambert absorbance model depended on the wavelength range chosen for analysis. The wavelength dependency on the calculated oxygen saturation value is due in part to the correlation that exists between the oxyhaemoglobin and deoxyhaemoglobin extinction coefficient spectra and to errors in the assumptions built into the Beer-Lambert absorbance model. A wavelength region with low correlation between the oxyhaemoglobin and deoxyhaemoglobin extinction coefficients was found that is hypothesized to be a good range to calculate oxygen saturation using a multiple linear regression approach.

retinal oximetry

whole blood oximetry

blood spectroscopy

Beer-Lambert

red blood cell scattering

Development of Delivery Strategies Facilitating Broad Application of Messenger RNA Tumor Vaccine

Phua, Kyle K.L.

January 2014

<p>Genetic modification of dendritic cells with plasmid DNA is plagued with low transfection efficiencies because DNA taken up by non-dividing dendritic cells rarely reaches the nucleus. But this difficulty can be overcome by the use of messenger RNA (mRNA), which exerts its biological function in the cytoplasm and obviates the need to enter the nucleus. Since pioneering work of Boczkwoski et al, the ex-vivo application of mRNA-transfected dendritic cells as a vaccine has been evaluated in numerous phase I trials worldwide and is still currently being actively optimized in clinical trials. </p><p> However, a major disadvantage of using mRNA-transfected DCs as a vaccine is that it requires patients to undergo at least one 4-hour leukapheresis procedure, followed by separation of the peripheral blood mononuclear cells (PBMCs), from which monocytes are isolated and cultured for a week in a defined medium with cytokines. The resulting DCs are matured after being loaded with mRNA and frozen for storage. Aliquots are subsequently thawed prior to administration to patients. This process of harvesting, culturing and loading DCs is more time- and resource-intensive than Provenge, the first FDA approved cell based tumor vaccine in 2011.Recent evidence has confirmed a lack of broad translation of Provenge due to complexity and cost of treatment. This predicates a similar fate for mRNA-transfected dendritic cell vaccine going forward. </p><p> This thesis presents alternative delivery strategies for mRNA mediated tumor vaccination. Through the application of synthetic and natural biomaterials, this thesis demonstrates two viable approaches that reduce or eliminate the need for extensive manipulation and cell culture.</p><p> The first approach is the direct in vivo delivery of mRNA encapsulated in nanoparticles for tumor vaccination. A selected number of synthetic gene carriers that have been shown to be effective for other applications are formulated with mRNA into nanoparticles and evaluated for their ability to transfect primary DCs. The best performing formulation is observed to transfect primary murine and human dendritic cells with an efficiency of 60% and 50% (based on %GFP+ cells) respectively. The in vivo transfection efficiency and expression kinetics of this formulation is subsequently evaluated and compared with naked mRNA via various routes of delivery. Following this, a proof-of-concept study is presented for a non-invasive method of mRNA tumor vaccination using intranasally administered mRNA encapsulated in nanoparticles. Results show that intranasally administered mRNA induces tumor immunity only if it is encapsulated in nanoparticles. And anti-tumor immunity is observed in mice intranasally immunized under both prophylactic as well as therapeutic models. </p><p> The second approach evaluates whole blood cells as alternative cell based mRNA carriers. A method is developed to encapsulate intact and functional mRNA in murine whole blood cells. Whole blood cells loaded with mRNA not only include erythrocytes but also T cells (CD3+), monocytes (CD11b), antigen presenting cells (MHC class II) as well as plasmacytoid DCs (CD45R-B220). Mice immunized with mRNA-loaded whole blood cells (intravenously) develop both humoral and cellular antigen-specific immune responses, and demonstrate delayed tumor onset and progression in a melanoma therapeutic immunization model (using tyrosinase related protein -2, TRP-2, as an antigen). Importantly, the therapeutic efficacy of mRNA-loaded whole blood cell vaccine formulation is found to be comparable to mRNA-transfected dendritic cell vaccine.</p><p> In conclusion, this thesis presents new methods to the delivery of mRNA tumor vaccines that reduce or eliminates the need for extensive cell manipulation and culture. Results presented in this thesis reveal viable research directions towards the development and optimization of mRNA delivery technologies that will address the problem of broad translation of mRNA tumor vaccines in the clinics.</p> / Dissertation

Biomedical engineering

Immunology

Nanotechnology

drug delivery

gene therapy

Immunotherapy

mRNA

tumor vaccination

whole blood cells

The Influence of Red Blood Cell Scattering in Optical Pathways of Retinal Vessel Oximetry

LeBlanc, Serge E.

18 February 2011

The ability to measure the oxygen saturation, oximetry, of retinal blood both non-invasively and in-vivo has been a goal of eye research for years. Retinal oximetry can in principle be achieved from the measurement of the reflectance spectrum of the ocular fundus. Oximetry calculations are however complicated by the scattering of red blood cells, the different pathways of light through blood and the ocular tissues that light interacts with before exiting the eye. The goal of this thesis was to investigate the influence of red blood cell scattering for different light paths relevant to retinal oximetry. Results of in-vitro whole blood experiments found calculated oxygen saturation differences between blood samples measured under different retinal light paths, and these differences did not depend on the absorbance path length. We also showed that the calculated oxygen saturation value determined by a multiple linear regression Beer-Lambert absorbance model depended on the wavelength range chosen for analysis. The wavelength dependency on the calculated oxygen saturation value is due in part to the correlation that exists between the oxyhaemoglobin and deoxyhaemoglobin extinction coefficient spectra and to errors in the assumptions built into the Beer-Lambert absorbance model. A wavelength region with low correlation between the oxyhaemoglobin and deoxyhaemoglobin extinction coefficients was found that is hypothesized to be a good range to calculate oxygen saturation using a multiple linear regression approach.

retinal oximetry

whole blood oximetry

blood spectroscopy

Beer-Lambert

red blood cell scattering