Preventing Shock
Monitoring of blood capillary/vessel spatial pattern using spatially resolved diffuse reflectance spectrometry might serve as a novel method for the early detection of clinical shock.
Although the causes of shock might be different, the basic abnormalities in pathophysiological changes are the same. Early shock can have a variety of signs: a dramatic change in blood oxygenation, specific alteration of the blood pressure and alterations of the blood capillary/vessel network such as period increase, amplitude decrease and diameter changes depending on the type of shock. Hemodynamic monitoring is currently used for shock detection. Unfortunately, the employed techniques provide only a general indication of the patient’s status and are not always sufficient for determining whether or not a patient is at risk of going into shock. Furthermore, most of these techniques are expensive, difficult to apply, invasive and require complex data processing. For complex and life-threatening infectious diseases with consecutive septic shock development, reliable diagnostics can only be achieved through laborious and time-consuming procedures.
German scientists now propose a novel simple, low-cost method of capillary/vessel spatial pattern monitoring. It analyzes the relative local volume fractions of reduced hemoglobin and oxyhemoglobin concentration from spectrally and spatially resolved diffuse reflectance spectra in order to detect alterations of the spatial distribution of the capillary/vessel spatial network indicating early signs of shock and changes related to pre-shock development.
Using a skin tissue phantom model, the researchers from Erlangen University and University Hospital Erlangen were able to validate their new method. The tissue phantom was made up from epoxy-resin containing capillary channels mimicking the blood capillary/vessel spatial network. Titanium dioxide served as a scatterer and ink as an absorber. The experimental setup included a spatially resolved fiber probe consisting of twenty-nine optical fibers arranged over the skin tissue phantom in an array. Twenty-eight fibers were used as light illumination fibers and one as a detector connected to the spectrometer. The illumination fibers were dynamically switched ON and OFF one after another, starting from the detector side towards the other end.
The preliminary study has shown that this method might be used as a real-time and non-invasive tool for the monitoring of shock development and feedback on the therapeutic intervention for Emergency & Rescue Teams as well as for Intensive Care Units. However, further studies will be needed to confirm the potential clinical utility and accuracy of spectrally-spatially resolved diffuse reflectance techniques in animal and patient models.
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Rajesh Kanawade, Florian Klämpfl, Max Riemann, Christian Knipfer, Katja Tangermann-Gerk, Michael Schmidt and Florian Stelzle; "Novel method for early signs of clinical shock detection by monitoring blood capillary/vessel spatial pattern,"; J. Biophotonics 7:10, 841-849, 2014.
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