For the quantitative determination of Hemoglobin A1c (HbA1c) in human blood. Th
For the quantitative determination of Hemoglobin A1c (HbA1c) in human blood. The determination of HbA1c is most commonly performed for the evaluation of glycemic control in diabetes mellitus. HbA1c values provide an indication of glucose levels over the preceding 4-8 weeks. A higher HbA1c value indicates poorer glycemic control. For in vitro diagnostic use only.
The HDL-Cholesterol Reagent Set is intended for the in vitro quantitative determ
The HDL-Cholesterol Reagent Set is intended for the in vitro quantitative determination of High Density Lipoprotein Cholesterol in human serum or plasma. The reagent can assist in the diagnosis and treatment of patients at risk for developing coronary heart disease.
LBS
Ldl & Vldl Precipitation, Cholesterol Via Esterase-Oxidase, Hdl
For the quantitative determination of Uric Acid in serum. For in vitro diagnost
For the quantitative determination of Uric Acid in serum. For in vitro diagnostic use only. The determination of uric acid in serum is most commonly performed for the diagnosis of gout. Increased uric acid levels are also found in leukemia, polycythemia, familial idiopathic hyperuricemia, and conditions associated with decreased renal function.
For the quantitative determination of urea nitrogen in serum. For in vitro diag
For the quantitative determination of urea nitrogen in serum. For in vitro diagnostic use only. Determination of urea nitrogen in serum is widely used as a screening test for renal function. When used in conjunction with the determination of creatinine in serum it is helpful in the differential diagnosis of the three types of azotemia; pre-renal, renal and post-renal.
The Chemistry calibrator is for use as a calibrator of CDS clinical chemistry as
The Chemistry calibrator is for use as a calibrator of CDS clinical chemistry assays. This calibrator material is well suited for automated and semi-automated analytical procedures. The Chemistry calibrator is a human based serum. The concentration of the calibrator components have been adjusted to ensure optimal calibration of the CDS methods on specified analyzers. The product consists of lyophilized human serum and a diluent for reconstitution. The human serum contains additives to provide the defined assay values. The concentrations of the calibrator components are lot-specific.
For the in vitro quantitative kinetic determination of lactate dehydrogenase act
For the in vitro quantitative kinetic determination of lactate dehydrogenase activity in serum. Increased levels of LD are associated with myocardial infarction. Levels reach a maximum approximately 48 hours after the onset of pain and persist about ten days. The degree of elevation is of value in assessing the extent of damage and in developing a prognosis. LD elevations are also observed in liver disease, pernicious anemia, in some cases of renal disease, and in some cases of skeletal muscle trauma.
CFJ
Nad Reduction/Nadh Oxidation, Lactate Dehydrogenase
CDS-LTX Control is used to validate volume, conductivity and light scatter param
CDS-LTX Control is used to validate volume, conductivity and light scatter parameters on COULTER HmX/ MAXM, STKS and GEN-S instruments. Prepare instrument with CDS LTX Primer immediately prior to CDS-LTX Control measurements.Accurate differential and reticulocyte measurements on COULTER HmX/MAXM, STKS and GEN-S instruments are assured by demonstrating consistent performance of volume, conductivity and light scatter parameters, using a particle of uniform size with appropriate light scattering characteristics. CDS-LTX Control validates the stability of the electrical processing and fluidic flow rate systems used to measure volume, conductivity and light scatter.
For the in vitro quantitative determination of Triglycerides in serum or plasma.
For the in vitro quantitative determination of Triglycerides in serum or plasma. Triglycerides determinations are of interest in the diagnosis and treatment of atherosclerosis, poorly controlled diabetes mellitus, nephrosis, liver disease, or other diseases involving lipid metabolism.
For calibrating the quantitative Direct Total Iron-Binding Capacity (TIBC) assay
For calibrating the quantitative Direct Total Iron-Binding Capacity (TIBC) assay on automated chemistry analyzer systems. Using the Direct TIBC reagents, measurement of the total iron-binding capacity of serum occurs in a fully automated manner, without the need for any off-line separation. Since the entire reaction process is monitored by the chemistry analyzer, it is necessary to calibrate the assay with serum-based calibrators which are carried through the same reaction process as the patient specimens.
The Chemistry Control Level I is to be used for monitoring the accuracy and prec
The Chemistry Control Level I is to be used for monitoring the accuracy and precision of clinical chemistry procedures. This control contains constituents commonly of interest in a general chemistry control, including common drugs and thyroids. For in vitro diagnostic use only. The quality control material is prepared from human serum with enzymes, nonprotein constituents, non-human protein, and bacteriostatic agents added.
For the quantitative determination of Alanine Aminotransferase in serum. ALT is
For the quantitative determination of Alanine Aminotransferase in serum. ALT is widely distributed in tissues with the highest concentrations found in the liver and kidneys. Even so, ALT is considered more liver-specific than AST. Elevated levels of ALT are often only observed in liver diseases such as cirrhosis, hepatitis, or metastatic carcinoma. However, there can be elevated levels of ALT with infectious mononucleosis, muscular dystrophy, and dermatomyositis.
For in vitro diagnostic use as a control to monitor the performance of multi-par
For in vitro diagnostic use as a control to monitor the performance of multi-parameter hematology instruments. CDS 3PD Hematology Control is prepared from stabilized human blood so that repeated measurements can be made daily to monitor the performance of hematology analyzer systems. ASSIGNED VALUES and EXPECTED RANGES are determined on systems using specific CDS reagents. ASSIGNED VALUES are confirmed by multiple analysis of the control product and should be considered a suggested average until you establish your own running mean.
This product is for the purpose of monitoring accuracy and precision in the quan
This product is for the purpose of monitoring accuracy and precision in the quantitative determination of human hemoglobin A1c (HbA1c) in blood by automated immunoassay. For in vitro diagnostic use only. Throughout the circulatory life of the red cell, Hemoglobin A1c is formed continuously by the adduction of glucose to the N-terminal of the hemoglobin beta chain. This process, which is non-enzymatic, reflects the average exposure of hemoglobin to glucose over an extended period.
For in vitro diagnostic use as a control to monitor the performance of multi- pa
For in vitro diagnostic use as a control to monitor the performance of multi- parameter hematology instruments. Boule Con-Diff Hematology Control is prepared from stabilized human blood so that repeated measurements can be made daily to monitor the performance of hematology analyzer systems. ASSIGNED VALUES and EXPECTED RANGES are determined on systems using specific Boule reagents. ASSIGNED VALUES are confirmed by multiple analysis of the control product.
For in vitro diagnostic use as a control to monitor the performance of multi- pa
For in vitro diagnostic use as a control to monitor the performance of multi- parameter hematology instruments. Boule Con-Diff Hematology Control is prepared from stabilized human blood so that repeated measurements can be made daily to monitor the performance of hematology analyzer systems. ASSIGNED VALUES and EXPECTED RANGES are determined on systems using specific Boule reagents. ASSIGNED VALUES are confirmed by multiple analysis of the control product.
For in vitro diagnostic use as a control to monitor the performance of multi- pa
For in vitro diagnostic use as a control to monitor the performance of multi- parameter hematology instruments. Boule Con-Diff Tri-Level is prepared from stabilized human blood so that repeated measurements can be made daily to monitor the performance of hematology analyzer systems. ASSIGNED VALUES and EXPECTED RANGES are determined on systems using specific Boule reagents. ASSIGNED VALUES are confirmed by multiple analysis of the control product.
The Chemistry Control Level II is to be used for monitoring the accuracy and pre
The Chemistry Control Level II is to be used for monitoring the accuracy and precision of clinical chemistry procedures. This control contains constituents commonly of interest in a general chemistry control, including common drugs and thyroids. For in vitro diagnostic use only. The quality control material is prepared from human serum with enzymes, nonprotein constituents, non-human protein, and bacteriostatic agents added. The constituents were adjusted to the levels listed in Expected Values.
For the quantitative determination of creatine kinase activity in serum. Serum c
For the quantitative determination of creatine kinase activity in serum. Serum creatinine kinase (CK) levels have proven valuable in the assessment of cardiac and skeletal muscle diseases, including myocardial infarction and muscular dystrophy.¹ Determination of creatine kinase and lactate dehydrogenase isoenzymes provides a definitive diagnosis of acute myocardial infarction.
For the quantitative determination of Carbon Dioxide in serum. For in vitro dia
For the quantitative determination of Carbon Dioxide in serum. For in vitro diagnostic use only.
This product is for the purpose of calibrating results in the quantitative deter
This product is for the purpose of calibrating results in the quantitative determination of human hemoglobin A1c (HbA1c) in blood by automated immunoassay. For in vitro diagnostic use only.
This product is intended for in-vitro use in the quality control of HDL, LDL, Ap
This product is intended for in-vitro use in the quality control of HDL, LDL, Apolipoprotein A-1, Apolipoprotein B, and Lipopro-tein (a) methods on clinical chemistry systems. The Multi-Analyte Lipid Control Set is a set of three serum levels. These three levels are to be used exclusively with the CDS HDL Cholesterol Reagent, CDS LDL Cholesterol Reagent, (CDS 501-419 and CDS 501-420) which are assays for the quan-tification of various lipids and lipoproteins in human serum.
These CRP Controls Set are intended for use in CRP test systems to validate perf
These CRP Controls Set are intended for use in CRP test systems to validate performance of the assay. The controls may also be useful in assessing test precision or analytical errors.2 For in vitro diagnostic use only. C-reactive protein (CRP) is described in the literature as an acute phase protein that is involved in the activation of complement, acceleration of phagocytosis, and detoxification of substances released from damaged tissue. CRP is one of the most sensitive indicators of inflammation.
DCK
C-Reactive Protein, Antigen, Antiserum, And Control
The CRP Calibrator Set is intended to be used for the calibration of the CDS CRP
The CRP Calibrator Set is intended to be used for the calibration of the CDS CRP Reagents. For in vitro diagnostic use only. The calibrators in this kit contain known quantities of human C-reactive protein. These reagents are to be used as calibrators with the manufacturer’s CRP Reagents.
DCK
C-Reactive Protein, Antigen, Antiserum, And Control
The LDL-Cholesterol Reagent Set is intended for the in vitro quantitative determ
The LDL-Cholesterol Reagent Set is intended for the in vitro quantitative determination of Low Density Lipoprotein Cholesterol in human serum or plasma. The reagents can assist in the diagnosis and treatment of patients at risk of developing coronary heart disease. Elevated LDL cholesterol is the primary target of cholesterol-lowering therapy.
For the in vitro quantitative measurement of glucose in serum. The measurement
For the in vitro quantitative measurement of glucose in serum. The measurement of glucose concentrations in biological fluids has been well documented. Glucose testing can be diagnostically significant in diabetes, hypoglycemia, and various adrenal and pituitary disorders.
For the quantitative kinetic determination of gamma glutamyl transferase (GGT) a
For the quantitative kinetic determination of gamma glutamyl transferase (GGT) activity in serum. GGT measurements are used in the diagnosis and treatment of liver diseases such as alcoholic cirrhosis, and primary and secondary tumors. Elevated GGT levels appear earlier and are more pronounced than those of other liver enzymes, in cases of obstructive jaundice and metastatic neoplasms.
For the quantitative determination of Aspartate Aminotransferase (AST) in human
For the quantitative determination of Aspartate Aminotransferase (AST) in human serum. AST is widely distributed in tissues with the highest concentrations found in the liver, heart, skeletal muscle and kidneys. Diseases involving any of these tissues can lead to elevated levels of AST in serum. Following myocardial infarction, AST levels are elevated and reach a peak after 48 to 60 hours.Hepatobiliary diseases such as cirrhosis, metastatic carcinoma and viral hepatitis can show increased levels of AST. Other disorders which can lead to an elevated level of AST are muscular dystrophy, dermatomyositis, acute pancreatitis and infectious mononucleosis.
For the quantitative determination of alkaline phosphatase in human serum. For
For the quantitative determination of alkaline phosphatase in human serum. For in vitro diagnostic use only. Serum alkaline phosphatase estimations are of interest in the diagnosis of two groups of conditions; hepatobiliary disease and bone disease associated with increased osteoblastic activity.
CJE
Nitrophenylphosphate, Alkaline Phosphatase Or Isoenzymes
Boule Cal Hematology Calibrator is manufactured for calibration multi-pa
Boule Cal Hematology Calibrator is manufactured for calibration multi-parameter hematology analyzers.Multi-parameter hematology analyzers require regular calibration in order to produce accurate results on patient samples. Calibration can be accomplished by transferring information to the analyzer through fresh blood samples, which have been assayed by reference methods. A more direct and convenient approach is to use a calibrator material with System Specific Values (SSV) assigned. Boule Cal is such a material.Boule Cal is a stable suspension of red blood cells, white blood cells and platelets. Assigned values are derived from replicate analyses on whole blood calibrated hematology analyzers (see reference procedures). A user analyzes Boule Cal on their instrument and computes calibration factors by comparing recovered values and assigned values. These factors provide the basis for making adjustments to the instrument.
KRZ
Calibrator For Hemoglobin And Hematocrit Measurement
For the quantitative determination of C-reactive protein in serum or plasma by l
For the quantitative determination of C-reactive protein in serum or plasma by latex particle enhanced immunoturbidimetric assay. For in vitro diagnostic use only. C-reactive protein (CRP) is an acute phase protein that is involved in the activation of complement, acceleration of phagocytosis, and detoxification of substances released from damaged tissue. As such, CRP is considered to be one of the most sensitive indicators of inflammation.
DCK
C-Reactive Protein, Antigen, Antiserum, And Control
For the quantitative determination of magnesium in serum. For in vitro diagnosti
For the quantitative determination of magnesium in serum. For in vitro diagnostic use only. Magnesium in the body is found primarily in bone with some in soft tissue, blood cells, and serum. Decreased levels have been observed in cases of diabetes, alcoholism, diuretics, hyperthyroidism, hypothyroidism, malabsorption, hyperalimenation, myocardial infarction, congestive heart failure and liver cirrhosis. Increased serum magnesium levels have been found in renal failure, diabetic acidosis, Addison’s disease, and vitamin D intoxication.
For the quantitative determination of Calcium in serum or heparinized plasma. In
For the quantitative determination of Calcium in serum or heparinized plasma. Increased serum calcium may be observed in hyperparathyroidism, vitamin D intoxication, multiple myeloma and some neoplastic diseases of bone. Decreased serum calcium may be observed in hypoparathyroidism, vitamin D deficiency, steatorrhea, nephrosis, and nephritis.
For the quantitative kinetic determination of amylase activity in human serum us
For the quantitative kinetic determination of amylase activity in human serum using a manual or automated procedure. The determination of amylase activity in serum is most commonly performed for the diagnosis and treatment of diseases of the pancreas.
For use in the determination of total iron-binding capacity in serum on automate
For use in the determination of total iron-binding capacity in serum on automated chemistry analyzers. For in vitro diagnostic use only. Total iron-binding capacity (TIBC) is the measure of the ability of serum proteins, principally transferrin, to bind iron. It is the maximum concentration of iron that the serum proteins can bind.Together with the total serum iron concentration, the TIBC is used in the diagnosis and treatment of iron deficiency anemia, other disorders of iron metabolism, and chronic inflammatory disorders. As an index of nutritional status, Serum TIBC is increased in iron deficiency, and decreased in anemia that is due to chronic disease.
For the quantitative determination of creatinine in serum. For in vitro diagnos
For the quantitative determination of creatinine in serum. For in vitro diagnostic use only. Creatinine assays are most frequently performed to aid in the determination of renal function.
CDS Hematology Calibrator is manufactured for calibration of multi-parameter hem
CDS Hematology Calibrator is manufactured for calibration of multi-parameter hematology analyzers for WBC, RBC, Hgb, MCV, Plt and MPV, as applicable to the analyzer system. Multi-parameter hematology analyzers require periodic calibration in order to produce accurate results on patient samples. Calibration may be accomplished by transferring calibration factors to the analyzer through fresh blood samples that have been assayed by reference methods. However, a more direct and convenient approach is to use a calibrator material such as CDS Hematology Calibrator, having system-specific assigned values, derived from a carefully calibrated analyzer or group of analyzers.CDS Hematology Calibrator assigned values are derived from replicate analyses on whole blood calibrated hematology analyzers (see reference procedures). Replicate analyses are performed on the user’s analyzer and calibration factors are computed by comparing recovered values and assigned values. The CDS Hematology Calibrator values are then divided by these determined factors to provide calibration settings for making adjustments to the instrument. Hct, MCH, MCHC, RDW and the WBC differential parameters do not require calibration.
KRZ
Calibrator For Hemoglobin And Hematocrit Measurement
CDS Hematology Calibrator is manufactured for calibration of multi-parameter hem
CDS Hematology Calibrator is manufactured for calibration of multi-parameter hematology analyzers for WBC, RBC, Hgb, MCV, Plt and MPV, as applicable to the analyzer system. Multi-parameter hematology analyzers require periodic calibration in order to produce accurate results on patient samples. Calibration may be accomplished by transferring calibration factors to the analyzer through fresh blood samples that have been assayed by reference methods. However, a more direct and convenient approach is to use a calibrator material such as CDS Hematology Calibrator, having system-specific assigned values, derived from a carefully calibrated analyzer or group of analyzers.CDS Hematology Calibrator assigned values are derived from replicate analyses on whole blood calibrated hematology analyzers (see reference procedures). Replicate analyses are performed on the user’s analyzer and calibration factors are computed by comparing recovered values and assigned values. The CDS Hematology Calibrator values are then divided by these determined factors to provide calibration settings for making adjustments to the instrument. Hct, MCH, MCHC, RDW and the WBC differential parameters do not require calibration.
KRZ
Calibrator For Hemoglobin And Hematocrit Measurement
CDS-LTX Primer is used to prepare the tubing and instrument components on the CO
CDS-LTX Primer is used to prepare the tubing and instrument components on the COULTER HmX/MAXM, STKS and GEN-S instruments prior to analyzing CDS LTX Control.The Coulter HmX/MAXM, STKS and GEN-S instruments require a clean sample line prior to aspirating CDS LTX-Control. Otherwise, performance might be adversely affected through increased coefficients of variation for the volume, conductivity and light scatter parameters.
This product is intended for in vitro diagnostic use in the quality control of m
This product is intended for in vitro diagnostic use in the quality control of multiple haematology parameters
Spinalscopics Spinal Fluid Cell Count Control is intended for monitoring total c
Spinalscopics Spinal Fluid Cell Count Control is intended for monitoring total cell counts performed manually using a hemocytometer to validate quantitation of red and white blood cells in patient CSF samples. Total cell counts are performed in a counting chamber with undiluted CSF. They are supplied in two levels, 3x3mL bottles per level per box. The controls are ready-to-use liquid, requiring no reconstitution or dilution. They are prepared in a human protein matrix fortified to target levels with purified chemicals and stabilized human red and white blood cells. Preservatives have been added to inhibit microbial growth.
Spinalscopics Spinal Fluid Cell Count Control is intended for monitoring total c
Spinalscopics Spinal Fluid Cell Count Control is intended for monitoring total cell counts performed manually using a hemocytometer to validate quantitation of red and white blood cells in patient CSF samples. Total cell counts are performed in a counting chamber with undiluted CSF. They are supplied in two levels, 3x3mL bottles per level per box. The controls are ready-to-use liquid, requiring no reconstitution or dilution. They are prepared in a human protein matrix fortified to target levels with purified chemicals and stabilized human red and white blood cells. Preservatives have been added to inhibit microbial growth.