ARM-D™ for β-Lactamase ID
Transcription
ARM-D™ for β-Lactamase ID
ARM-D for β-Lactamase ID ™ INSTRUCTIONS FOR USE INTENDED USE The ARM-D for β-Lactamase ID kit is a qualitative PCR-based molecular test for the detection of family-specific KPC, CTX-M ESBLs, MBL, and ampC gene targets. Positive identification of the gene by this test indicates the presence of the detected β-Lactamase gene. The assay involves extraction of DNA from bacterial cells and subsequent PCR amplification with gel-based detection. The kit can be used for active surveillance of antimicrobial resistance patterns and be beneficial for infection control. The β-Lactamase ID kit generates data in just hours, when used with the Philisa® Thermal Cycler, compared to 24-48 hours for traditional phenotypic methods. This product has not been cleared by the U.S. Food and Drug Administration for In Vitro Diagnostic use. The product is For Research Use Only. Not for use in diagnostic procedures. INTRODUCTION Bacterial resistance to antibiotics poses a global threat to public health and in recent years mortality rates associated with infections resistant to antibiotics has increased with the potential to spread through the patient population. Of these resistance mechanisms, β-Lactamases are enzymes that cleave β-Lactam rings rendering the β-Lactam family of antibiotics ineffective for treatment of clinically-important Gram-negative bacterial infections. Specifically, β-Lactamases confer resistance to penicillins, cephamycins, extended-spectrum β-Lactams and, in some cases, carbapenems. β-Lactam resistant Gram-negative organisms, producing multiple or plasmid-mediated β-lactamases, are difficult to identify phenotypically and necessitate more specific detection methods to identify clinically important β-lactamases. Genetic identification of these resistance mechanisms is critical for active surveillance and infection control. Because these antibiotics are often selected for the management and prevention of infectious disease, the presence and characteristics of specific β-Lactamases can play a critical role in selecting the appropriate antibiotic therapy. DETECTION Prepare a 2.5% agarose gel. Agarose gels can be pre- or post-stained with ethidium bromide or equivalent nucleic acid stain (see assay recommendations for optimal procedure). Load 5 µl of each PCR product into the desired wells. Run the gel at 8-10 V/cm for approximatley 45 minutes to achieve sufficient resolution of control bands. Following electrophoresis, stain the gel with ethidium bromide (or equivalent stain for nucleic acids). For an accurate sizing comparison of sample products, the control reaction products may be loaded in multiple gel lanes and compared to a DNA ladder (see example gel for exact sizing of each amplicon and approximate band migration pattern). INTERPRETATION AmpC, CTX-M ESBLs, MBL, and KPC amplicons from unknown sample targets can be identified by comparing the product sizes to the control reactions (A). The following example illustrates the comparison of various PCR products from DNA extracted from isolates (B): SUMMARY AND PRINCIPLES Nucleic acid tests can provide supplemental resistance information to conventional culture susceptibility testing. The ARM-D for β-Lactamase ID kit allows for identification of nine β-Lactamase ID gene families: IMP-1, NDM, OXA-48, CTX-M-14, CTX-M-15, CMY-2, DHA, VIM, and KPC. This test utilizes sequence-specific primer pairs for the PCR amplification of each target group. Additionally, an endogenous internal control that targets a conserved region common in Gram-negative bacteria is included to reduce false negatives due to PCR inhibition, DNA degradation, or poor extraction. Included with the kit are two external DNA control vials, containing synthetic DNA templates, for multiplex PCR amplification of all nine targets between two reaction tubes. After extraction of DNA from Gram-negative bacteria, rapid (22-minute) PCR amplification is performed on the Streck Philisa Thermal Cycler using the ARM-D 2X Supermix. Agarose gel detection is used to separate PCR products and compare the molecular weights against the external DNA control bands and a known molecular weight DNA ladder. CONTENTS The kit vials contain synthetic DNA oligonucleotide primers and DNA controls for the specified gene targets suspended in TE buffer, pH 8.0. The kit contents are sufficient for 100 reactions total and 14 reactions of each control DNA mix. 10X Primer Mix: 275 µL Control DNA Mix #1: 14 µL Control DNA Mix #2: 14 µL PRECAUTIONS 1. For Research Use Only. Not for use in diagnostic procedures. 2. Use established precautions with potentially biohazardous specimens according to your laboratory guidelines. 3. Always use DNase/RNase-free plasticware/reagents and aerosol-barrier pipet tips. 4. SDS can be obtained at www.streck.com, by calling 800-843-0912, or by calling your local supplier. STORAGE AND STABILITY 1. When stored at -20 °C, unused kit contents are stable through the expiration date. 2. Minimize the number of freeze-thaw cycles where possible. Aliquots of the reagents for long-term storage may be prepared. 3. When using reagents for consecutive days, store at 4 °C. Store at -20 °C for extended storage periods. SAMPLE EXTRACTION The β-Lactamase ID kit was validated against DNA extracted from known clinical bacterial isolates using QIAGEN® DNeasy® Blood and Tissue Kit (catalog #: 69504). Alternative nucleic acid extraction techniques/kits should also give DNA of sufficient yield and quality. The 30-cycle PCR assay has not been tested for use with clinical samples in which isolates are present in low numbers (e.g., direct, uncultured samples) or crude DNA preparations (e.g., boil preps). PCR PREPARATION Thaw reagents and vortex briefly to mix contents. A brief centrifugation step may be needed to bring all volume to the bottom of the tubes. Prepare a master mix (without template DNA) according to the table below based upon the number of samples to be processed (plus one extra reaction). Include at least one of each control reaction and a no-template-control (NTC) sample for each prepared master mix. Component 25 µL Reaction Final Concentration Nuclease-Free Water 9 µL Variable ARM-D 2X Supermix 12.5 µL 1X 10X Primer Mix 2.5 µL 1X 1 µL Variable Template or Control DNA LIMITATIONS 1. Due to competition for amplification reagents, the internal control may not be amplified in the presence of large amounts of resistance gene target amplification. If a resistance gene target is amplified, the absence of an internal control band should not be considered an invalid result. 2. The internal control primers have been designed to amplify a highly conserved gene target present in many Gram-negative bacteria. However, the internal control may not successfully amplify from certain Gramnegative species or strains. Therefore, one should consider this in interpreting the absence of the internal control product from a specific sample. 3. PCR product for the internal control may be detected in Control 2. Vectors for use in control tubes were propagated in E. coli and may have residual amounts of carry-over E. Coli DNA present. This at times will result in a weak gel band. This was not determined to affect detection of the gene of interest in the test isolates. 4. The gene family targets have been tested against a considerable number of isolates. The PCR primers will only amplify the specified target families, and will not detect other β-Lactamases. 5. Using the β-Lactamase ID kit with other thermal cyclers or enzymes is possible, but optimization may be required. Contact Streck Technical Services for assistance at 800-843-0912 or [email protected]. ASSAY RECOMMENDATIONS 1. UltraPure Agarose 1000 (Life Technologies, Ref #: 16550-100) was used for preparation of 2.5% agarose gels used in optimization and validation studies. 2. 1X TAE Buffer was used for electrophoresis. 3. Agarose gels were stained with ethidium bromide post-electrophoresis. The ethidium bromide post stain was made using 1 µl of a 10 mg/ml ethidium bromide stock per 1 ml of sterile water. Agarose gels were stained for 30 seconds and de-stained in distilled water for 30 minutes. ORDERING INFORMATION Please call our Customer Service Department toll free 800-843-0912 for assistance. Additional information can be found online at www.streck.com. GLOSSARY OF HARMONIZED SYMBOLS EC REP LOT REF Authorized Representative in the European Community Batch Code Biological Risk Catalog Number Manufacturer Consult Instructions For Use Temperature Limitation Use By IVD In Vitro Diagnostic Medical Device Glossary of symbols may contain symbols not used in the labeling of this product. Aliquot 24 µL of master mix into Philisa® PCR Tubes. Add 1 µl of control DNA or test sample to each respective PCR tube. PCR PROTOCOL Execute the following protocol on the Philisa Thermal Cycler: Philisa PCR Protocol Hot-start 98 °C for 30 sec 30 cycles of: 98 °C for 5 sec 60 °C for 10 sec 72 °C for 20 sec Final extension 72 °C for 30 sec Runtime: 22 minutes The brand and product names of the instruments are trademarks of their respective holders. Streck 7002 S. 109 Street Omaha, NE 68128 USA 350649 2015-02