cath lab display screens manufacturer

Cardiac Cath Lab display monitors such as the Modalixx offer a multi-modality approach which sanctions the exhibition of a wider range of imagery and promotes efficient work flow. The constant advances in medical imaging technology called for upgraded systems from old CRT monitors, these auto-sync devices are produced to combat this issue. Compatible with a multitude of well-known manufacturers such as GE, Siemens, Toshiba, Shimadzu, Philips and other modalities, Ampronix is constantly working to offer imaging solutions for all display and peripheral needs in the medical field.

Modular Devices offers short and long-term interim rentals of temporary Mobile and Modular Cardiac Cath, Peripheral Vascular, Electrophysiology (EP) and CT Labs to hospitals and healthcare facilities throughout the USA and North America. Reflecting our commitment to high-quality standards, every lab in our fleet is fitted with only the newest and most advanced imaging technology available.

Setting up a cath lab with all the right options for your specialty, your workflow, and your physicians" preferences comes with a lot of questions. Among those we"re asked most often: How many monitors come with a cath lab system?

The answer to that question isn"t 100% cut-and-dry, but we can help you know what to expect as you begin shopping. Keep reading to learn more about monitor options for your next cath lab system.

Typically, cath labs come with just 2 monitors included on the monitor suspension arm: a live monitor, and a reference monitor. Seems like an easy enough answer, right?

The extra positions on the monitor suspension are for, you guessed it, extra monitors! Okay, that’s a bit of an over-simplification, so let us explain. In the cath lab, more than any other modality, peripheral systems are used to help treat the patient. Depending on what these systems are and how many you have, it may be preferable to add one, two, or even six more monitors onto your suspension.

Most cath labs use a hemodynamic monitoring system such as a GE MacLabduring studies. There is often a monitor on the suspension that displays the patient"s physio data in real time so the staff has immediate feedback from the MacLab.

If you’re in a lab that performs 3D studies, there is a good chance the cath lab itself is unable to reconstruct the raw data acquired during a study. In this case, a reconstruction workstation such as a GE Advantage Windows Workstation (AWW) is needed to reconstruct the images. When a reconstruction workstation is in use, one of the monitor slots on the suspension can be dedicated to displaying reconstructed image data.

When a site orders a new cath lab from the manufacturer the number of spaces available on the monitor suspension can be selected. If you plan to purchase your lab on the secondary market, be sure to talk to your provider early on about how many monitor spaces you"ll need so they can accommodate. For single-plane labs, suspension systems are available with two to six monitor spaces. Suspensions for up to eight monitors are available for biplane systems.

If you have additional questions about monitors or monitor suspensions, are in need of a cath lab, or need some peripheral equipment to help fill out your monitor suspension, call or email us today

A catheterization laboratory, commonly referred to as cath lab, is a vital piece of diagnostic equipment for hospitals and healthcare facilities. A cath lab is an exam room equipped with diagnostic imaging technology to provide physicians with visual access to chambers and arteries of the heart. In these spaces, a team of physicians perform life-saving procedures, including coronary angiography, catheterization, balloon angioplasty, percutaneous coronary intervention, congenital heart defect closure, stenotic heart valves and pacemaker implantations. A typical cath lab consists of a C-arm, image intensifier, X-ray tubes, and several displays.

Cath lab operations depend completely upon medical displays, which allow physicians to visualize a patient internally and perform the necessary procedure. The digital age has ushered in improved imaging technologies, which emit less radiation and also provide greater visual clarity to physicians. The adoption of CRT monitors in the cath lab brought about significant changes in their operations. CRT displays were followed by the advent of LCD screens. Most hospitals and healthcare facilities upgraded to LCD screens as they are slimmer, portable and offer higher resolution images. Currently, cath labs are witnessing yet another transition in medical monitors, as professionals are upgrading from LED displays to ultra-high definition 4K technology. Instead of using four to six displays, hospitals and healthcare facilities are upgrading to one large UHD 4K display. However, healthcare providers need to consider several variables before deciding upon the kind of upgrades they can make. Additionally, the switch from the LED model to the 4K display system introduces issues related to maintenance and safety.

Ampronix (Irvine, CA, USA), an authorized master distributor of the medical industry"s top brands and a manufacturer of innovative technology, has been repairing and selling 4K monitors of different sizes for cath labs and hybrid ORs to hospitals for years. Ampronix undertakes sale, service and repair of cath lab monitors manufactured by several well-known companies such as Philips, GE, Siemens, Shimadzu, Toshiba, Hitachi, Eizo, Barco, Chilin and Optik View. Ampronix offers tailored, one-stop solutions at a faster and more cost effective rate than other manufacturers. The company has most models in stock that are available at half the OEM price.

The company’s services also include preventive maintenance, replacement of LCD, backlights, reflectors and power supplies. Any display failure amounts to an entire cath lab rendered obsolete until a replacement or repair solution is provided. However, the turnaround time for either of those protocols can be several weeks. Given the importance of the cath lab for healthcare providers, Ampronix ensures that they have zero downtime in the event of their monitors requiring service or replacement. The company has a readily available response team of ESD- and ASQ-certified technicians to assist and answer questions for urgent repairs. Nation-wide requests received by 2pm PST receive same-day or next-day delivery. Ampronix also has capable and competent customer service representatives for addressing all medical technology questions and concerns. With its extensive product knowledge, outstanding service, and state-of-the-art repair facility, Ampronix continues to meet the needs of the medical community and move forward with its goal to facilitate optimized patient care and improved physician workflow.

The OPTIS™ Imaging System with a compatible Dragonfly™ Imaging Catheter is intended for the imaging of coronary arteries and is indicated in patients who are candidates for transluminal interventional procedures. The compatible Dragonfly™ Imaging Catheters are intended for use in vessels 2.0 to 3.5 mm in diameter. The compatible Dragonfly™ Imaging Catheters are not intended for use in the left main coronary artery or in a target vessel which has undergone a previous bypass procedure.

The OPTIS™ Imaging System is intended for use in the catheterization and related cardiovascular specialty laboratories and will further compute and display various physiological parameters based on the output from one or more electrodes, transducers, or measuring devices. The physician may use the acquired physiological parameters, along with knowledge of patient history, medical expertise and clinical judgment to determine if therapeutic intervention is indicated.

Contraindications: The OPTIS™ Integrated System and Mobile System with Software are contraindicated where introduction of any catheter would constitute a threat to patient safety. Contraindications include:

Observe all advancement and movement of the Dragonfly™ Imaging Catheter under fluoroscopy. Always advance and withdraw the catheter slowly. Failure to observe device movement fluoroscopically may result in vessel injury or device damage.

If resistance is encountered during advancement or withdrawal of the Dragonfly™ Imaging Catheter, stop manipulation and evaluate under fluoroscopy. If the cause of resistance cannot be determined or mitigated, carefully remove the catheter and guidewire together.

The Dragonfly™ Imaging Catheter should never be forced into lumens that are narrower than the catheter body or forced through a tight or heavily calcified lesion.

When advancing or retracting a catheter with a monorail tip through a stented vessel, the catheter may engage the stent between the junction of the Dragonfly™ Imaging Catheter and guidewire, resulting in entrapment of catheter/guidewire, catheter tip separation, and/or stent dislocation.

The Dragonfly™ Imaging Catheter is sterilized by ethylene oxide and is intended for one time use only. Non-pyrogenic. Do not use if the package is opened or damaged.

After use, the Dragonfly™ Imaging Catheter may be a potential biohazard. Handle and dispose of in accordance with accepted medical practice and applicable laws and regulations.

The Canon Infinix comes in 7 different configurations, from the budget friendly floor mounted Infinix Core+ all the way up to the Infinix-i 4D CT, which includes a CT scanner. For Cath labs the Infinix-i Core + and the Infinix-i Sky + are both great options, the Core being the floor mounted and the Sky being the ceiling mounted. They are available with the following detector choices:8 x 8 inch (11” across)

Whether you’re constructing a new lab or updating an older lab, these 4 manufacturers all have options that work well. Which you choose will likely depend on what system your medical team is most comfortable with, what price you can negotiate and what features are necessary for your lab. When looking to upgrade an old room it’s worth doing a cost benefit analysis to ensure that upgrading is the most economical solution. Often times we hear hospitals are looking to upgrade because, after a new lab is constructed, the older labs see less use as the doctors prefer the larger display on the new system. In those cases we recommend extending the useful life of the lab via a large video retrofit upgrade, where the multiple monitors are replaced with a large display and the control room monitors are consolidated with a KVM. Doing this retrofit provides much of the benefits of a new system without the price tag of a new x-ray system. For more information about how to advance your interventional lab contact us.

To help achieve exceptional performance with data-driven improvement strategies, numerous options are available to make further gains in the efficiency and quality of care. We have a proven track record in analysing procedural data to identify and quantify potential operational issues. Our team also provides solutions to further qualify and offer options for resolution.

These acute procedures would not be possible without the appropriate technology to facilitate the imaging process. Cath lab operations are dependent on medical displays, as these monitors allow physicians to visualize a patient internally and perform the necessary procedure. In a single medical procedure, up to 4-6 monitors can be utilized at any time for enhanced visibility.

Although many monumental advancements have been made in the efficiency of cath labs, the dependence on X-rays for imaging has persisted through every upgrade. From purchasing analog or digital modalities to choosing a single or bi-plane system, there are endless customization possibilities. Typically, the rooms consist of an image intensifier, C-arm, X-ray tubes and several displays.

Advantageously, the digital age ushered in an era of improvements to imaging technology, which emitted less radiation, and displayed visual clarity. The adoption of CRT monitors in the cath lab inherently changed how labs run.

In the early cath labs, all information was conveyed through film. The X-rays utilized produced high-doses of radiation and low-quality images and were printed on 16-mm or 35-mm film. Then, radiologists spent many hours in darkrooms to process images and ample storage space was wasted holding boxes of film.

In the cath lab, there are typically four to six CRT or LCDs in use. One image is always utilized for monitoring physiological attributes like a patient’s heart rate or blood oxygen level. Following CRT displays, was the adaptation of LCD monitors. Many physicians upgraded to these monitors since they are slimmer, more portable and offer higher resolution images.

“We are witnessing yet another transition in cath lab, hybrid OR monitors as many physicians are upgrading from CCFL HD displays to ultra-high-definition 4K/8MP technology,” says Michael Thomas, director of business development and marketing at Ampronix.

Many health care facilities have upgraded or are currently in the process of upgrading their medical displays to this resolution. These monitors provide a level of visibility previously unknown to physicians. During critical surgeries and procedures, increased clarity and sharper details can mean the difference between saving or losing a life.

These 4K/8MP large medical-grade displays are considered to be the new “gold standard” for surgical applications allowing multiple screens to be viewed on a single monitor while taking up a minimal amount of space. When a 4K/8MP display is combined with a video manager, it can be customized with a variety of layout options and editing tools like magnification. The design is easier to use and provides a higher resolution, making its adoption an easy choice as it facilitates precise procedures and minimally invasive surgeries.

Although the advancement of this technology has improved patient care, the transition could prove to be detrimental and may demand considerable attention. With four to six displays in the cath lab previously, there are preventative measures in place that guarantee a backup option should a monitor burn out. In critical imaging procedures like angioplasty, mere seconds without visibility become crucial moments, and a single display makes cath labs extremely susceptible to all the associated risks.

To solve this issue, some displays are equipped with a secondary back-up monitor that folds out, if needed. However, this is a sacrifice that presents limited visual acuity. When this situation unravels, the entire procedure must be halted and the patient sutured up, as technicians attempt to remedy the problem.

Furthermore, any display failure amounts to an entire cath lab being rendered obsolete until a replacement or repair solution is provided. Unfortunately, the turn around time for either of those protocols can take over a week.

Ampronix is also able to sell, service and repair cath lab monitors manufactured by Philips, GE, Siemens, Shimadzu, Toshiba, Hitachi, Eizo, Barco, Chilin and Optik View.

“We know how important your cath lab is and want to ensure you have zero downtime in the event your monitor will need service or replacement,” Thomas said. “Nationwide requests received by 2 p.m. PST will receive same or next day delivery. Ampronix also offers a readily available response team to assist and answer questions for urgent repairs, ESD- and ASQ-certified technicians and capable and competent customer service representatives for all your medical technology questions and concerns.”

Counted amid one of the distinctive and trustworthy business enterprises, we are focused towards providing a huge assortment of Modular Cath LabProduct Details:

For diagnosis and treatment of coronary artery disease, you demand crystal clear images of the moving heart and of challenging cardiac anatomies in any angulation. To spice up the challenge, dose has to be kept to a minimum even during complex procedures. Our Artis zee systems deliver images in excellent quality and at low dose, displayed the way you like them best with CLEARchoice. A wide variety of software tools supports the toughest percutaneous coronary interventions. Find out how these and other smart solutions from Siemens can support you in your routine and advanced procedures for coronary artery diseases.

ACOM.PC software turns every standard PC into a professional cardiac review workstation. Image processing and diagnostic tools are tailored to the needs of cardiologists, internal medicine specialists, and cardiac surgeons. Connecting to the Artis system, PACS or standard network storage, ACOM.PC can be completely integrated into your department’s IT landscape and also be used as nearline storage offering high-speed access to image data. ACOM.PC can be assigned to a separate display in the examination room for the parallel processing-like review of previous studies during ongoing examinations.

Treatment options for structural heart disease (SHD) are flourishing at a fast pace with the development of new devices, hardware, and software. These technological innovations can replace surgical procedures with percutaneous interventions, often allowing treatment of previously untreatable patients. This leads to new challenges for physicians and their team – as well as for imaging in terms of workflow or multi-modality integration. Siemens’ syngoDynaCT Cardiac has revolutionized cardiac imaging, bringing intra-procedural 3D visualizations of the cardiac chambers and vessels of the beating heart into the cath lab. Based on this technology, we also offer software tools that allow fusion of other 3D imaging modalities like CT or MR for transfer of pre-procedural images used for intervention planning into your ongoing procedure. In addition, you can overlay points of interest or whole 3D structures and acquire peri-procedural 3D images for improved guidance during demanding SHD or vascular procedures. Dedicated workflow support tools facilitate procedures like transcatheter aortic valve replacement (TAVR). Find out how our solutions can support you in the dynamic and fast changing environment of SHD treatment.

Create CT-like images of the heart in your cath lab using rotational angiography – with syngo DynaCT Cardiac. The high-quality 3D images support you in analyzing the cardiac anatomy to plan and guide complex SHD procedures. Fuse 3D volumes acquired with other modalities or mark regions of interest in pre- and intra-procedural 3D images, which can be overlaid onto live 2D images. Here as well, linking the C-arm to a 3D image helps you define the optimal projection angle – without additional contrast media or fluoroscopy.

syngoiGuide Toolbox allows you to overlay points of interest from 3D volumes onto 2D live images right on the Artis display. Using the linked cursor feature, you can quickly and easily import the points of interest into the 2D live images ‒ exactly matching the findings in the cross-sectional images of a syngoDynaCT Cardiac acquisition, for example. It takes just a single click to create anatomical outlines of segmented 3D volumes, which can be especially helpful for mitral valve repair or for vascular procedures like aortic aneurysm stenting. The information that is overlaid using syngoiGuide Toolbox is automatically updated should you change the C-arm angulation, the zoom factor or move the table.

Covering everything from imaging and recording to 3D guidance and co-registration with the latest mapping and navigation systems. Smart solutions designed to set new standards of care, safety, and efficiency for your EP lab.

With the help of rotational angiography, syngo DynaCT Cardiac creates CT-like 3D images of the beating heart directly in your cath lab. There is no need for pre-procedure CT, and you get high-quality 3D volumes during the case. ECG-gated acquisition enables visualization of the coronary sinus and the ventricles for procedure planning. Special low-dose algorithms can be used to fuse 3D angio images with CT and MR.

With its convenient one-click segmentation, syngo InSpace EP allows you to quickly and effectively segment the cardiac chambers, thus reducing time-consuming manual interactions. Excellent AFib ablation planning by visualizing the individual LA morphology, improved orientation and catheter guidance during mapping and ablation and esophagus visualization for reduced risk in AFib procedures are three benefits. It allows you to view inner surfaces of segmented chamber with a clipping function and an easy point tagging function to plan the ablation path and for documentation purposes.

Enhance catheter guidance during ablation with syngo iPilot. Application provides an overlay of 3D segmentation results (from syngo DynaCT, CT or MR) onto live fluoroscopy. It allows overlaying pre- and intra-procedurally acquired 3D volumes onto live fluoroscopy or acquisition.

The dual-volume visualization for enhanced decision-making during intervention enables the differentiation between two high-contrast 3D objects that have virtually the same contrast density or allows the display of syngoDynaCT and 3D Angio in one view.

Enables previous CT, MR or PET CT images to be fused with high-contrast angio 3D or syngoDynaCT datasets. syngoInSpace 3D/3D Fusion not only displays relevant diagnostic data from other modalities in the angio suite but serves as foundation for exact overlay of 3D volumes and planning data onto live fluoroscopy during treatment (using syngoiPilot®).

Effective device guidance during interventional procedures, providing a simultaneous display of the live fluoro, roadmap or acquisition image and a matching 3D volume or planning data to facilitate guidance during complex interventions. The system updates dynamically to movements of the C-arm, table, zoom, and source-to-image distance.

A 3D functional imaging application that provides physiological information directly in the interventional lab. The software indicates the distribution and amount of blood in lesions and surrounding tissue by means of color-coded cross-sectional blood volume maps.

EVAR-3D Guidance overlays 3D information on top of live fluoroscopy and stands for optimized C-arm angulations, precise 3D overlay, and guidewire and catheter navigation.

1Prasad A, et al. Contemporary trend of acute kidney injury incidence and incremental costs among US patients undergoing percutaneous coronary procedures. Catheter Cardiovasc Interv. 2020 Nov;96(6):1184-1197.

2Castro D, Dang TT. Reducing contrast-induced acute kidney injury in the cath lab. Poster presentation at ACC National Cardiovascular Data Registry (NCDR) 2018 Annual Conference.

3Thukral N. Kidney care protocols in the cath lab. Transcatheter Cardiovascular Therapeutics 2019 Presentation. Accessed on October 14, 2019 from: https://www.tctmd.com/slide/aki-reduction-cath-lab-protocol-development-implementation-and-outcomes.

4Turner C, Tucker PA. Real-world impact of a quality improvement program for AKI prevention in the cardiac cath lab. SCAI Scientific Sessions Virtual Conference. Catheter & Cardiovasc Interv. 2020;95 (Supplement 2): S112-S113.

5Cameron A, Espinosa TJ. Reducing contrast-induced acute kidney injury in a cardiac catherization laboratory: a quality improvement initiative. SCAIScientificSessionsVirtualConference. Catheter&CardiovascInterv. 2020;95(Supplement 2):S25.

8Sattar A, et al. Impact of using DyeVert Plus on incidence of acute kidney injury after cardiac catheterizations with coronary interventions in high risk patients. ACC Annual Meeting 2018; Charleston, WV.

9Briguori C, Golino M, Porchetta N, et al. Impact of a contrast media volume control device on acute kidney injury rate in patients with acute coronary syndrome. Catheter & Cardiovasc Interv. 2020 Jul 18. doi: 10.1002/ccd.29136.