Home
HelpTest Code JIP Joint Infection Panel, PCR, Synovial Fluid
Ordering Guidance
This test is appropriate for raw, unprocessed, and untreated synovial fluid specimens only.
Shipping Instructions
Specimen must arrive at refrigerated temperature within 7 days of collection.
Specimen Required
Specimen Type: Synovial fluid
Container/Tube: Sterile vial
Specimen Volume: 1 mL
Collection Instructions:
1. Do not process or treat sample in any way.
2. Label specimen as synovial fluid.
Secondary ID
621699Useful For
Rapid detection of synovial fluid infections caused by the following:
Anaerococcus prevotii/vaginalis
Finegoldia magna
Streptococcus species
Clostridium perfringens
Parvimonas micra
Streptococcus agalactiae
Cutibacterium avidum/granulosum
Peptoniphilus species
Streptococcus pneumoniae
Enterococcus faecalis
Peptostreptococcus anaerobius
Streptococcus pyogenes
Enterococcus faecium
Staphylococcus aureus
Staphylococcus lugdunensis
Bacteroides fragilis
Kingella kingae
Proteus species
Citrobacter species
Klebsiella aerogenes
Pseudomonas aeruginosa
Enterobacter cloacae complex
Klebsiella pneumoniae complex
Salmonella species
Escherichia coli
Morganella morganii
Serratia marcescens
Haemophilus influenzae
Neisseria gonorrhoeae
Candida species
Candida albicans
This test is not recommended as a test of cure.
Highlights
The BIOFIRE Joint Infection (JI) Panel is a multiplexed nucleic-acid-based, in vitro diagnostic test for the simultaneous qualitative detection and identification of 31 bacterial and yeast nucleic acids and 8 antimicrobial resistance genes from synovial fluid obtained from individuals suspected to have a JI.
This test is used to diagnose infections caused by Anaerococcus prevotii/vaginalis, Finegoldia magna, Streptococcus species., Clostridium perfringens, Parvimonas micra, Streptococcus agalactiae, Cutibacterium avidum/granulosum, Peptoniphilus, Streptococcus pneumoniae, Enterococcus faecalis, Peptostreptococcus anaerobius, Streptococcus pyogenes, Enterococcus faecium, Staphylococcus aureus, Staphylococcus lugdunensis, Bacteroides fragilis, Kingella kingae, Proteus species., Citrobacter, Klebsiella aerogenes, Pseudomonas aeruginosa, Enterobacter cloacae complex, Klebsiella pneumoniae group, Salmonella species., Escherichia coli, Morganella morganii, Serratia marcescens, Haemophilus influenzae, Neisseria gonorrhoeae, Candida species., and Candida albicans.
The test can also detect the following antimicrobial resistance genes: CTX-M, KPC, NDM, vanA/B, IMP, mecA/C and MREJ (MRSA), OXA-48-like, and VIM.
Method Name
Multiplex Polymerase Chain Reaction (PCR)
Reporting Name
Joint Infect Panel PCR, Synovial FlSpecimen Type
Synovial FluidSpecimen Minimum Volume
0.5 mL
Specimen Stability Information
| Specimen Type | Temperature | Time | Special Container |
|---|---|---|---|
| Synovial Fluid | Refrigerated (preferred) | 7 days | |
| Ambient | 4 hours |
Reject Due To
| Specimen in anaerobe vial or viral transport medium (including but not limited to M4, M5, BD viral transport media, thioglycolate broth) Any specimen that has been centrifuged Anticoagulant or additive Swabs (any type or transport system) |
Reject |
Clinical Information
Joint infections (JI) occur when pathogens access bones and joints via hematogenous spread, contiguous spread of pathogens from an adjacent infection, or direct implantation (eg, open fracture, surgery, implanted medical devices). JI broadly encompasses multiple types of infections including, but not limited to, septic arthritis (SA), and prosthetic joint infection (PJI). These infections are commonly diagnosed by a combination of laboratory results, microbiological data, histological evaluation of tissue, intraoperative inspection, and in some cases radiographic results.(1) JI are most often caused by bacterial pathogens, though yeasts are also a significant cause. Serious morbidity can arise from JI, resulting in significant pain, permanent disability, or death.(2) Additionally, JI are often complicated and result in increased hospital stay length as well as higher rates of long-term rehabilitation and rehospitalization.(3,4) Globally, the prevalence of JI is estimated to be four to ten per 100,000 people in developed countries, with the economic impact of such infections totaling hundreds of millions of dollars per year.(4,5)
Timely diagnosis of JI and administration of effective treatment can significantly reduce the rates of serious complications, duration of hospital stays, and costs. The BIOFIRE JI Panel tests a single synovial fluid sample to simultaneously provide results for multiple aerobic and anaerobic bacteria and yeast that cause JI as well as genetic markers associated with antimicrobial resistance. Although JI is a broad category that includes multiple types of infections, the BIOFIRE JI Panel was primarily designed to detect organisms associated with SA and PJI. Rapid identification of the organism(s) in synovial fluid, along with information about antimicrobial resistance gene status for select microorganisms, may aid the physician in making timely and appropriate treatment and management decisions.
The BIOFIRE JI Panel is indicated as an aid in the diagnosis of specific agents of JI and results should be used in conjunction with other clinical and laboratory findings. Negative results may be due to infection with pathogens that are not detected by this test, pathogens present below the limit of detection of the assay, or infection that may not be detected in a synovial fluid specimen. Positive results do not rule out co-infection with other organisms. The BIOFIRE JI Panel is not intended to monitor treatment for JI.
Culture of synovial fluid is necessary to recover organisms for susceptibility testing and epidemiological typing, to identify organisms in the synovial fluid that are not detected by the BIOFIRE JI Panel, and to further identify species in the genus, complex, or group results.
Reference Values
Undetected
Interpretation
Results are intended to aid in the diagnosis of illness and are meant to be used in conjunction with other clinical and epidemiological findings.
Detected results do not distinguish between a viable or replicating organism and a nonviable organism or nucleic acid, nor do they exclude the potential for coinfection by organisms not included in the panel.
Negative results do not exclude the possibility of infection and should not be used as the sole basis for diagnosis, treatment, or other management decisions.
The antimicrobial resistance genes detected may or may not be associated with the agents responsible for disease. Undetected results for the included antimicrobial resistance genes do not guarantee susceptibility to corresponding classes of antimicrobials, as other mechanisms of antimicrobial resistance exist.
Method Description
The BIOFIRE Joint Infection Panel is a closed system that performs all the chemistry required to isolate, amplify, and detect nucleic acid from multiple bacterial, yeast, and select antimicrobial resistance genes from synovial fluid obtained from individuals suspected to have a joint infection. A panel contains reagents in freeze-dried form and is divided into discrete segments where the required chemical processes are carried out. Patient sample and hydration fluid are drawn by vacuum into the panel and then placed into the Biofire FilmArray instrument. The detection process operations are automated (nucleic acid purification, first stage polymerase chain reaction (PCR), second stage PCR, and melt curve analysis of replicates for each assay) and complete in about an hour in this closed system.
Nucleic Acid Purification:
The sample is lysed by a combination of chemical and mechanical mechanisms, and the liberated nucleic acid is captured, washed, and eluted using magnetic bead technology.
First-Stage PCR:
A reverse transcription step is performed to convert viral RNA into complementary DNA prior to amplification. The purified nucleic acid solution is combined with a preheated master mix to initiate the reverse transcription step and subsequent thermocycling for multiplex PCR.
Second-Stage PCR:
Products of first stage PCR are diluted and mixed with fresh PCR reagents, which is distributed over the second stage PCR array. The individual wells of the array contain primers for different assays (in triplicate) that target specific nucleic acid sequences from each of the pathogens detected, as well as control template material.
DNA Melting Analysis:
Temperature is slowly increased, and fluorescence in each well of the array is monitored and analyzed to generate a melt curve.
Analysis of Melt Curves:
The software evaluates the DNA melt curve for each well to determine if a PCR product was present in that well. If the melt profile indicates the presence of a PCR product, then the analysis software calculates the melting temperature of the curve, which is then compared against the expected range for the assay. When the software determines that the melt curve falls inside the assay-specific melt temp range, it is called positive. When it determines that the melt curve is not in the appropriate range, it is called negative.
Analysis of Replicates:
Melt curves of each of the 3 replicates for each assay are evaluated to determine the assay result. For an assay to be called positive, at least 2 of the 3 associated melt curves must be called positive, and the melting temperature for at least 2 of the 3 positive melt curves must be similar (within 1 degree C). Assays that do not meet these criteria are called negative.(Instruction manual: BioFire Joint Infection (JI) Panel IVD. BioFire Diagnostics, LLC; RFIT-PRT-0690-01, 06/2022)
Day(s) Performed
Monday through Sunday
Performing Laboratory
Mayo Clinic Laboratories in Rochester
Test Classification
This test has been cleared, approved, or is exempt by the US Food and Drug Administration and is used per manufacturer's instructions. Performance characteristics were verified by Mayo Clinic in a manner consistent with CLIA requirements.CPT Code Information
87999
LOINC Code Information
| Test ID | Test Order Name | Order LOINC Value |
|---|---|---|
| JIP | Joint Infect Panel PCR, Synovial Fl | 97608-4 |
| Result ID | Test Result Name | Result LOINC Value |
|---|---|---|
| 621730 | CTX-M | 88250-6 |
| 621731 | IMP | 85498-4 |
| 621732 | KPC | 49617-4 |
| 621733 | mecA/C and MREJ (MRSA) | 96309-0 |
| 621734 | NDM | 73982-1 |
| 621735 | OXA-48-like | 85827-4 |
| 621736 | vanA/B | 62261-3 |
| 621737 | VIM | 85501-5 |
| 621700 | Anaerococcus prevotii/vaginalis | 97609-2 |
| 621714 | Bacteroides fragilis | 97610-0 |
| 621729 | Candida albicans | 97611-8 |
| 621728 | Candida spp. | 97612-6 |
| 621715 | Citrobacter spp. | 97613-4 |
| 621701 | Clostridium perfringens | 97614-2 |
| 621702 | Cutibacterium avidum/granulosum | 97615-9 |
| 621716 | Enterobacter cloacae complex | 97616-7 |
| 621703 | Enterococcus faecalis | 97617-5 |
| 621704 | Enterococcus faecium | 97618-3 |
| 621717 | Escherichia coli | 97619-1 |
| 621705 | Finegoldia magna | 97620-9 |
| 621718 | Haemophilus influenzae | 97621-7 |
| 621719 | Kingella kingae | 97622-5 |
| 621720 | Klebsiella aerogenes | 97623-3 |
| 621721 | Klebsiella pneumoniae complex | 97624-1 |
| 621722 | Morganella morganii | 97625-8 |
| 621723 | Neisseria gonorrhoeae | 97626-6 |
| 621706 | Parvimonas micra | 97627-4 |
| 621707 | Peptoniphilus spp. | 97628-2 |
| 621708 | Peptostreptococcus anaerobius | 97629-0 |
| 621724 | Proteus spp. | 97630-8 |
| 621725 | Pseudomonas aeruginosa | 97631-6 |
| 621726 | Salmonella spp. | 97632-4 |
| 621727 | Serratia marcescens | 97633-2 |
| 621709 | Staphylococcus aureus | 97634-0 |
| 621710 | Staphylococcus lugdunensis | 97635-7 |
| 621711 | Streptococcus agalactiae | 97636-5 |
| 621712 | Streptococcus pneumoniae | 97637-3 |
| 621713 | Streptococcus pyogenes | 97638-1 |
| 621827 | Streptococcus spp. | 97639-9 |
| 621738 | Interpretation | 59464-8 |