A method for detecting and counting particles suspended in fluids, such as bacteria suspended in urine, utilizing dynamic features of the suspended particles and employing light scattering measurements. The disclosed method is suitable for determining the susceptibility of bacteria to antibiotics. A
A method for detecting and counting particles suspended in fluids, such as bacteria suspended in urine, utilizing dynamic features of the suspended particles and employing light scattering measurements. The disclosed method is suitable for determining the susceptibility of bacteria to antibiotics. A cuvette for detecting bacteria in fluids, which is especially suited for the light scattering measurements, is provided.
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1. A cuvette for use in detecting bacteria in a fluid sample, comprising: a first compartment having first and second windows and for holding the fluid sample, the windows being transparent and having a surface roughness in which the root mean square (RMS) value does not exceed one nanometer, the fi
1. A cuvette for use in detecting bacteria in a fluid sample, comprising: a first compartment having first and second windows and for holding the fluid sample, the windows being transparent and having a surface roughness in which the root mean square (RMS) value does not exceed one nanometer, the first compartment for receiving a beam of light that enters the first window along an axis, the beam of light for causing scattered light indicative of the bacteria within the fluid sample to exit the second window at locations spaced apart from the axis;a second compartment adjacent to said first compartment; anda divider including a porous structure that is located between the first compartment and the second compartment. 2. The cuvette according to claim 1, wherein the second compartment contains a chemo-effector. 3. The cuvette according to claim 2, further including an inlet for receiving the chemo-effector. 4. The cuvette according to claim 1, further including an inlet for receiving the sample fluid. 5. The cuvette according to claim 4, wherein the inlet is for receiving the fluid sample that has been filtered. 6. The cuvette according to claim 1, further including a filter for filtering from the fluid sample particles with sizes that exceed the sizes of the bacteria to be detected. 7. The cuvette according to claim 6, wherein the filter includes pores that are not smaller than the sizes of the bacteria to be detected. 8. The cuvette according to claim 7, wherein the second compartment contains a chemo-effector. 9. The cuvette according to claim 2, wherein the fluid sample is pressurized to move the sample fluid through the filter. 10. The cuvette according to claim 1, wherein the first and second windows have width dimensions that do not exceed 0.5 millimeters. 11. The cuvette according to claim 1, wherein variations in the values of the refraction index within the first window do not exceed 0.0001. 12. The cuvette according to claim 1, wherein the divider further includes a removable cover to prevent the transfer of material between the first compartment and the second compartment. 13. A cuvette for use in detecting bacteria in a fluid sample, comprising: a first compartment having first and second windows and for holding the fluid sample, the windows being transparent and having a surface roughness in which the root mean square (RMS) value does not exceed one nanometer, the first compartment for receiving a beam of light that enters the first window along an axis, the beam of light for causing scattered light indicative of the bacteria within the fluid sample to exit the second window at locations spaced apart from the axis;a second compartment adjacent to said first compartment;a divider located between the first compartment and the second compartment, the divider including a cover that initially prevents the transfer of material between the first compartment and the second compartment; anda chemo-effector within at least one of the first and second compartments for mixing with the fluid sample so as to affect the bacteria to be detected in the first compartment via the scattered light. 14. The cuvette according to claim 13, further including a filter for filtering from the fluid sample particles with sizes that exceed the sizes of the bacteria to be detected. 15. The cuvette according to claim 14, wherein the fluid sample is pressurized to move the sample fluid through the filter. 16. The cuvette according to claim 13, wherein the chemo-effector is located within the second compartment. 17. A cuvette for use in detecting bacteria in a fluid sample, comprising: a first compartment having first and second windows and for holding the fluid sample, the windows being transparent and having a surface roughness in which the root mean square (RMS) value does not exceed one nanometer, the first compartment for receiving a beam of light that enters the first window along an axis, the beam of light for causing scattered light indicative of the bacteria within the fluid sample to exit the second window at locations spaced apart from the axis;a second compartment adjacent to said first compartment and having chemo-effector therein, the chemo-effector for mixing with the fluid sample so as to affect the bacteria within the fluid sample; anda filter for filtering the fluid sample prior to being illuminated by the beam of light, the filter including pores that are not smaller than the sizes of the bacteria to be detected. 18. The cuvette according to claim 17, wherein the fluid sample is pressurized for moving the sample fluid through the filter. 19. The cuvette according to claim 17, wherein the chemo-effector is added to the second compartment after the fluid sample is added to the first compartment. 20. The cuvette according to claim 17, further including an inlet for receiving the sample fluid to be filtered by the filter. 21. The cuvette according to claim 17, wherein variations in the values of the refraction index within the first window do not exceed 0.0001.
Rich David R. (Glastonbury CT) Apperson Gerald R. (Seattle WA) Labuda Lawrence L. (Issaquah WA) Mace Leslie E. (Mercer Island WA), Gas analyzer cuvettes.
Tomlinson ; Jr. Harold W. (Scotia NY) Tiemann Jerome J. (Schenectady NY), Light imaging in a scattering medium, using ultrasonic probing and speckle image differencing.
Leistner Hermann,DEX ; Schiessl Hans,DEX, Measuring system and method for performing luminometric series analyses as well as multiple cuvette for receiving liquid samples therefor.
Brito Luiz A. L. (Sao Paulo BRX), Vacuum process for physical deodorization and/or physical refining oils and fats through direct condensation of the vapo.
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