Compact DXL™ - Mylab | Translating Discovery to Delivery

Experience the Future of Molecular Diagnostics

A Fully Automated Platform

Extraction

RT-PCR

Extraction

Extensive Menu

The CompactDXL platform, with its growing menu of innovative, accurate, and easy-to-use RT-PCR tests, gives healthcare professionals access to clinically relevant, on-demand results for a range of diagnostic tests, all on one streamlined, scalable platform.

Clinical & Operational Impact

Fully Automated

Sample extraction, RT-PCR amplification, detection & reporting

Extraction

Fully integrated extraction + RT-PCR

Turn Around Time (TAT)

Less than 2 hours from sample to result

Laboratory Information System (LIS) and Electronic Medical Record (EMR)

Interfacing capabilities

Closed Cartridge Technology

Reduces the risk of contamination and enables random-access, mix-and-match testing capabilities for optimal flexibility

Simple Workflow

With minimal hands on time and walk away capabilities for unparalleled efficiency

Compact and Scalable Design

Options to grow with your testing needs

Machine Specifications

Physical Dimensions
Console

Application

Instrument Type

Power Requirement
Console

Decontamination

Power Backup

Data Transfer

Sample Volume
Range

Sample Processing

Sample Per Run

Operating Conditions

MyWave^™ Brochure

Sr. No

Panel

No. of Targets

Targets

1 NATSpert IDⓇ TripleH Detection Kit

No. of Targets

Targets

Sr. No	Panel	No. of Targets	Targets
1	NATSpert ID^ⓇTripleH Detection Kit	03	HIV, HBV and HCV
2	HPV 16 and 18 Detection Kit	02	Cervical Cancer
3	High Risk HPV 7 targets kit	07	Cervical Cancer
4	High Risk HPV 14 targets kit	14	Cervical Cancer
5	Antimicrobial Resistance (ABR)*	07	Beta Lactams: CTX-M ESBL \| Carbapenem Resistant: KPC, NDM, VIM, IMP, OXA-48 \| Methicillin: mecA, mecc \| Fluoroquinolone: Qnr \| Sulfonamide: Sul \| Trimethoprim: dfrA Vancomycin: VanA, VanB
6	Respiratory Pathogens Panel"	24	Virus: Adenovirus \| Respiratory syncytial virus A/B \| Influenza A \| Influenza B \| Human bocavirus \| Human corona 229E \| Human corona OC43 \| Human corona NL63 \| Human corona HKU1 \| Human enterovirus \| Human metapneumoviruses \| Human parechovirus \| Human rhinovirus \| Parainfluenza 1\| Parainfluenza 2❘ Parainfluenza 3\| Parainfluenza 4 \| Respiratory syncytial virus A/B \| SARS-CoV-2 by PCR Bacteria: Bordetella pertussis \| Chlamydophila pneumoniae \| Haemophilus influenza \| Legionella pneumophila \| Mycoplasma pneumoniae \| Streptococcus pneumoniae
7	Urinary Tract Infectious Panel"	29	Acinetobacter baumannii \| Aerococcus urinae \| Candida albicans \| Candida auris \| Candida glabrata \| Candida krusei \| Candida parapsilosis \| Candida tropicalis \| Citrobacter freundii \| Corynebacterium urealyticum \| Enterobacter cloacae \| Enterococcus faecalis \| Enterococcus faecium \| scherichia coli \| Klebsiella aerogenes \| Klebsiella oxytoca \| Klebsiella pneumoniae \| Morganella morganii \| Proteus vulgaris \| Proteus mirabilis \| Providencia stuartii \| Pseudomonas aeruginosa \| Serratia marcescens \| Staphylococcus aureus Staphylococcus saprophyticus \| Streptococcus agalactiae \| Treponema pallidum \| Ureaplasma parvum \| Ureaplasma urealyticum
8	Expanded STI Panel	11	Bacteria: Chlamydia trachomatis \| Gardnerella vaginalis \| Mycoplasma genitalium \| Mycoplasma hominis \| Neisseria gonorrhoeae \| Trichomonas vaginalis \| Treponema pallidum \| Ureaplasma parvum \| Ureaplasma urealyticuma Virus: Herpes simple virus 1 \| Herpes simple virus 2
9	Gastro Panel	22	Bacteria: Salmonella spp. \| Campylobacter spp \| Vibrio parahaemolyticus \| Vibrio cholerae \| Yersinia enterocolitica \| Plesiomonas shigelloide B \| Shigella / Enteroinvasive E. Coli (EIEC) \| Enteroaggregative E. Coli (EAEC) \| Shiga toxin producing E. Coli (STEC) \| Enteropathogenic E. Coli (EPEC) \| Enterotoxigenic E. Coli (ETEC) \| Clostridium difficile toxin B \| Clostridium difficile toxin A \| Clostridium difficile binary toxin A/B Virus: Sapovirus (GI/GII/GIV/GV) \| Astrovirus \| Norovirus (GI/GII) \| Rotavirus (A) \| Adenovirus Parasite: Giardia lamblia \| Entamoeba histolytic \| Cryptosporidium Spp. \| Cyclospora cayetane \| Vibrio vulnificus
10	Wound Panel"	30	Bacteria: Acinetobacter baumanni \| Enterobacter cloacae complex \| Escherichia coli \| Proteus spp. \| Klebsiella oxytoca \| Klebsiella pneumoniae \| Staphylococcus saprophyticus \| Burkholderia spp. \| Enterococcus faecalis/faecium \| Serratia marcescens \| Morganella morganii \| Streptococcus pyogenes \| Mycobacteroides abcessus/chelonae \| Pseudomanas aeruginosa \| Clostridium perfigens \| Clostridium septicum Mycobacterium avium complex \| Citrobacter freundii \| Clostridium novyi \| Mycobacterium ulcerans/marinum \| Mycobacterium fortuitum \| Cutibacterium spp. \| Providencia stuartii \| Klebisella aerogenes \| Staphylococcus aureus \| Streptococcus agalactiae \| Staphylococcus epidermidis Virus: Herpes simplex virus 1 Varicella zoster virus Herpes simplex virus 2

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FAQs

What is the unique trait of MyWave?

MyWave is known for its acoustic low-frequency sound waves that resemble the resonance frequency of the lungs.

How does MyWave assist in targeted treatment?

Using MyWave’s transducer, the treatment can be concentrated in highly affected areas for extended periods than in less affected ones.

What is the optimal frequency for mucus rehydration?

The optimal frequency for mucus rehydration is 40 Hz.

What are the primary characteristics of MyWave?

MyWave matches the resonance frequency of the lungs and uses sound waves to change the viscosity of the mucus.

Experience the Future of Molecular Diagnostics

A Fully Automated Platform

Extensive Menu

Clinical & Operational Impact

Fully Automated

Extraction

Turn Around Time (TAT)

Laboratory Information System (LIS) and Electronic Medical Record (EMR)

Closed Cartridge Technology

Simple Workflow

Compact and Scalable Design

Machine Specifications

Physical Dimensions Console

Application

Instrument Type

Power Requirement Console

Decontamination

Power Backup

Data Transfer

Sample Volume Range

Sample Processing

Sample Per Run

Operating Conditions

Sr. No

Panel

No. of Targets

Targets

1

NATSpert IDⓇ TripleH Detection Kit

No. of Targets

Targets

Related Kits

Machines

Compact DX®

Compact XL®

MyWave™

MyBeam®

MyBox®

MyLume

MyCube

FAQs

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Physical Dimensions
Console

Power Requirement
Console

Sample Volume
Range

Compact DX^®

Compact XL^®

MyWave^™

MyBeam^®

MyBox^®