Clinical Laboratory Instrumentation
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1 Clinical Laboratory Instrumentation Responsible for analyzing patient specimens to provide information to aid in diagnosis of disease to evaluate effectiveness of therapy Major sections: Chemistry lab (Blood, Urine, fluids) Hematology (Elements of blood) Microbiology (Tissues to search for organisms) Blood bank
2 Operations in a Clinical Laboratory Sample handling Performing tests Discards used samples safely Information management Analyzes and reports results Stores results in a data base Computer systems are used
3 Spectrophotometry Basis of many devices in Clinical Lab Easy, accurate, precise, and stable Concept: Substances absorb or emit electromagnetic energy at different wavelengths. Ultraviolet, visible and near Infrared. Two types of Spectrophotometer: Photometer, no filter Colorimeter, glass filter that selects λ range
4 Some Observations on Light Photon is a light particle with zero resting mass Color perception is measured by special cells Colors are classified as pure and non-pure colors White light contains infinite number of λ The electromagnetic spectrum identified as: Visible (human eye can see colors) from 400 to 700 nm. Mostly used in spectrophotometry. Ultraviolet from 200 to 400 nm Infrared from 700 to 900 nm
5 Block Diagram-Spectrophotometer Apply light Select λ (i.e. select element you are searching for) using a narrow-band light filter mono-chromator Apply selected light to sample Measure returned energy concentration of element If the element of interest is not light sensitive, add reagent to react with element of interest
6 Power Sources Hydrogen and deuterium discharge lamps Continuous spectrum with most power in IR range can be used from 200 to 360 nm through higher V. Tungsten filament Operation from 360 to 800 nm Problems due to aging and voltage dependence self calibration is possible Power sources used: Batteries, mainly Ni-Cd rechargeable, limited use Constant voltage transformers Electronic power supplies
7 Light Sources (green) Tungsten (red) Tungsten lamps Arc discharges Light emitting diodes (LED's) Lasers (monochromatic): Argon 515 nm He-Ne 633 nm Ruby 693 nm Nd:YAG 1064 nm CO 2 : 10,600 nm (not shown)
8 Optical Filters Corning Kodak Glass and gelatin filters Germanium lenses for long λ Two Polaroid filters Interference filters Diffraction grating
9 1. Filters Wavelength Selectors a. Glass filters - BW 50 nm b. Interference filters - BW 10 to 15 nm require glass filter to eliminate harmonics 2. Monochromators Prism - BW 0.5 nm Glass Quartz, for λ< 350 nm Diffraction grating - BW down to 0.5 nm
10 1-a Glass Filters Glass is treated with some materials (paint) to absorb some wavelength and transmit some others Multi-layer of glass filters are used to obtain high-pass, low-pass and band-pass characteristics Bandwidth around 50 nm, hence can't distinguish between particle whose optical spectrums are close to each other
11 1-b Interference Filters Reflected surfaces are spaced at a distance causing light to go back and forth Distance equals to desired wavelength desired wavelength is enhanced since it is in-phase, while un-desired light is cancelled since it is out of phase. Harmonics can also pass must eliminate using glass filters Interference filters can distinguish between elements with close wavelengths.
12 2-Monochromators Prisms Glass Quartz for λ< 350 nm Spectrum of light produced Nonlinear spatial distribution Diffraction grating More lin. spatial distribution Stray light due to impurities in grating Harmonics Bandwidth down to 0.5 nm
13 Cuvette Holds the sample Optical Characteristics must not alter the spectral characteristics of light entering/leaving the cuvette
14 Sample Substance resulting from interaction of the patient specimen and appropriate reagent Substance absorbs light according to Beer s law Beer's law: Pt = Po10 -alc where Po : radiant energy arriving at the cuvette Pt : Radiant energy leaving the cuvette a: absorptivity of the sample (extinction coefficient) L : Length of the path through the sample C : Concentration of the absorbing sample % transmittance (T) = Pt*100/Po =10 -alc Absorbance A= log (Po/Pt) = log(100/%t) = 2 - log(%t) = 2 - (2 - alc); A = alc
15 Calculation of Concentration Absorbance in standard (As) (standard reagent with know concentration Cs) is determined. Absorbance of the sample (unknown) (Au) is measured. Using the Beer's law: Cu = Cs (Au/As) where Cu and Cs are concentrations of unknown and standard in the sample respectively
16 Beer's law: Pt = Po10 -alc T = Pt*100/Po =10 -alc Absorbance: A = alc Principles
17 Detectors-Photometers Photodetector Quantum sensors Photo-emissive sensors Photo-conductive cells Photo-junction sensors Photo-voltaic sensors - solar cells Signal processing and display Amplifiers Linearizers Signal processing devices, integrators, differentiators, filters Analog and digital display Recording devices
18 Diagram of an Optical Instrument Schematic diagram for highest efficiency Solid-state lamps and detectors may simplify the system
19 Geometrical Optics Lamps Lenses collimating the beam focusing the beam Mirrors full mirrors half-silvered mirrors curved mirrors Filters Scattered radiation flat black painting stops
20 Fiber Optics n 1 sinθ 1 = n 2 sinθ 2
21 Radiation Sensors (Photo-detectors) Thermal sensors Quantum sensors Photo-emissive sensors Photo-conductive cells Photo-junction sensors Photo-voltaic cells
22 The Photomultiplier
23 Photo-Junction Sensors Photodiode, phototransistor, photo darlington transistor, photo-unijunction transistor, photon (opto) couplers
24 Spectral Response Including Source, Filter and Detector
25
26 Simplified Schematic Diagram of a Spectrophotometer
27 Unknown chemical concentration Utilization of Reagent Reagent Reading of unknown concentration Color density Electrical meter Light source Electrical signal Most substances do not have energy absorption characteristics. Special chemicals are used. Reagent (special chemicals) must have: Complete reaction with the unknown Reaction product should have strong color Unknown should not have color itself Light intensity Photodetector
28 Clinical Lab-Flame Photometers
29 Flame Photometer- Atomic Emission Differ from spectro-photometer Power source and Sample are combined Measures emission of light not absorption Can determine concentration of only metals (Na +, K + ) Sample nebulizer (converts liquid to gas) inject to flame evaporation particles of substance with high energy remain particles release energy at certain wavelength lens and photo-detector measures concentration.
30 Flame Photometer- Atomic Absorption Used with lead, cupper and calcium Concept: 1. Use a power source (light) with filament made of element to be detected 2. Keep the cathode of lamp in vacuum 3. Heat the lamp release atoms from cathode 4. Cathode atoms will collide with sample atoms energy release proportional to concentration of atomes in sample
31 Types of Flame Atomic emission Photometers Atomic absorption
32 Automated Chemical Analyzers Increase productivity and decrease response time for emergency request (STAT request) Utilize spectrophotometric methods Three important devices: Technicon SMA 12/60 & SMAC Beckman Synchron CX4 DuPont Automatic Clinical Analyzer (ACA)
33 Continuous Flow Analyzer
34 Autoanalyzer
35 CX4 measurement read window Synchron CX4 measurement read window for a rate-type measurement.
36 Block Diagram of ACA
37 Sample kit holds the patient samples with ID attached. ATP s needed for each sample loaded behind the sample kit on conveyor. The last ATP followed by a special end-of-run kit. At filling station, sample mixed with diluent (may be different for each determin.) and combined solution is injected to each ATP. ATP to preheater, sample kit to sample-kit exit tray.
38 Hematology Blood is composed of: Formed elements, RBC, WBC, Platelets Plasma Substances in solution Water Hematology counts # and determines characteristics of formed elements in blood Packed RBC volume = hematocrit (HCT) Hemoglobin (Hb) in grams/dl
39
40 Blood Spun in a Centrifuge
41 Hematocrit Determination
42 RBC Volume and Hb Concent. Mean corpuscular volume - MCV: 82 to 98 µm 3 Mean corp. hemoglobin - MCH : 27 to 31 pg Mean corpuscular hemoglobin content -MCHC: 32 to 36 % MCV = 10 HCT / RBC count MCH = 10 Hg / RBC count MCHC = 100 Hg / HCT RDW - volume distribution width for RBC
43 Chromatology Separating a mixture of substances into components parts Differences in the rate of movement of components of a mixture while in mobile phase are used to separate components Can determine drugs taken in overdoses
44 Gas Chromatology How it works: Injector introduces sample to pressurized gas that carries the sample through the 1 meter long 7 mm diameter column Column is coated with solid supports with a small size to produce the separation of substances. Temperature is increased along the column to ensure maximal separation efficiency A detector at the end of the column provides an electrical output proportional to the quantity of the compound. Recorder with x axis for time and y axis to amplitude records detector output
45 Electrophoresis Measure quantities of proteins in plasma, Cerebral Spinal fluids (SPF) and urine It is defined as the movement of solid phase with respect to a liquid (buffer) Buffer is a solution to carry current and maintain PH. How it works? Sample applied to the buffer Due to electric field applied, samples with same size, charge and shape migrate at the same rate resulting in separation of particles into zones. Densitometer is used to measure the concentration of each protein on the strip.
46 Electrophoresis Cellulose acetate electrophoresis
47 Hematology Blood: RBC carry oxygen ( x10 6 /µl) WBC defense ( /µl) Platelets coagulation (150, ,000 µl) Plasma liquid that carries everything RBC Volume and O 2 concentration
48 Electronic Devices for Measuring Dark field Blood Characteristics used in Technicon instrument deflection of light beam caused by the passage of formed elements. Electrical resistance principle used in Coulter counter resistance of a solution as formed elements pass through an aperture mostly used clinical method.
49 How it works: Coulter Counter Add anti-coagulant chemical to blood (why?) Dilute specimen with a solution similar to plasma Split diluted specimen to two parts Mixing and lyzing chamber Measure Hb and WBC count Diluter II Measure RBC count Increase accuracy by using 3 counters in the counting bath
50 Hemoglobin (Hb) Concentration Objective is to prepare specimen for measuring Hemoglobin (Hb) and WBC Lyzing agent breaks the RBC to release the Hb into solutions. WBC are not affected with this agent. Specimen passes through WBC bath and used as a cuvette is to measure Hb concentration
51 WBC counts How it works? Vacuum pump draws specimen out of WBC bath through the aperture Current passes from the electrode in bath to the electrode in the tube through the aperture. As each WBC/RBC passes through the aperture, a voltage pulse is generated in the circuit proportional to the volume of cell. A threshold related to the volume of the cell is used to determine the passage of a cell. Pulses enter to an integrator circuit that produce a dc voltage proportional to the cell count
52 Coulter STKS Aperture Bath
53 Accuracy and Correction of counts 3 counters are used, and the results are averaged if readings are close to each other. If one reading if off shoot, then two are used for average. If all three are away from each other beyond a certain limit, the counting is repeated. Correction for coincide (two cells passing together) is done through statistical analysis.
54 Diluter II in the Coulter Model STKS Counter
55 RBC Count (Diluter II) Same counting technique Cells with volume greater than 35fl are classified as RBC Cells with volume in the 2-20 fl range are classified as platelets. Histogram with detected volumes is generated to yield counts.
56
57 The Counting Process
58 WBC Differential Count Coulter measures the count for the five basic white blood cell types, each WBC cell type has its' own unique features Neutrophils Eosinophils Basophils Lymphocytes Monocytes WBC differential bath is used RBC are removed by lyzing, and WBC are further stablized Flow cytometry is used to measure counts for each element.
59 Flow Cytometry Light beam is presented to a stream of fluid Detectors detect the scattered and reflected light of the fluid Different elements reflect differently. Use the reflected light to measure the volume of each element of WBC
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