Virtual Microscopy – Real Regulations

 

Nice read by Dr. Stacey Mills over at Pathology Network (Pⁿ Blog). A recognized expert in surgical pathology and director of such at the University of Virginia, he writes, "It seems somewhat surprising, at least to me, that a technique based on standard light microscopy, with microscopes being essentially unregulated, Class I devices, should be given the "highest risk" class III rating." Vendors will have to speak to this at upcoming USCAP meeting.  I hope the word "surprise" is not in their vocabulary given statements made on this topic back at the FDA panel meeting in 2009 and inviting the FDA back to Pathology Visions for guidance on the subject.

The lead article in the January 2012 issue of CAP Today addresses the pending FDA regulation of whole slide imagers (WSI's). The FDA has concluded dthat these devices are "Class III" medical devices, and as such are subject to considerable federal regulation (compared to Class I and II devices).  Depending on your perspective, this is either a good thing for patient safety or the death knell for rapid development, certification and deployment of these devices in the United States, with many companies looking elsewhere for testing and validation).

 

By way of quick review, Class I devices are lowest risk and require no pre-market notification.  Your light microscope is, believe it or not, classified as a Class I device.  Class II devices are considered "moderate risk" and are usually based on modifications of prior approved devices or techniques.  Class III devices are considered "highest risk" and such devices require premarket FDA approval, quality controls, etc. Automated cytology screeners, for example, are Class III devices. The FDA has said that WSI's belong in this category as well.

 

It seems somewhat surprising, at least to me, that a technique based on standard light microscopy, with microscopes being essentially unregulated, Class I devices, should be given the "highest risk" Class III rating.  Although the rationale for that decision may be difficult to fathom, it has, in fact, been made and is highly unlikely to be reversed.

The fact that the FDA has even been reviewing WSI's and has decided to regulate them as "highest risk" Class III devices, may come as a surprise to most end-user pathologists since the topic of regulation is understandably not a major one at trade shows where vendors try to sell these devices.  It certainly isn't a topic the vendors themselves are likely to bring up, at least until now.

 

Although the FDA has been less than specific in discussing their thinking, they have indicated that they have concerns about image quality when compared to standard light microscopy, and the effect of navigating on a computer screen v. moving a slide on a microscope.  It is even unclear whether WSI's might be approved for a certain TYPE of specimen or group of diagnoses and not for other types or groups.  Might it be approved for small core biopsies and not for big tissue blocks?  Might it not be approved for hematologic malignancies, where the diagnosis often requires viewing large areas at relatively high magnification, something that is more difficult with a WSI?  At this point, no one knows.  Clinical trials comparing the accuracy of WSI's v. traditional microscopy will be difficult to construct and time consuming to perform, but will likely provide the data to answer these questions.

 

Given the FDA's pace of action in regard to other issues, it's now expected that it may take up to five years for the first devices to be approved in the United States, with Aperio likely to be among the first.  Some companies will most likely concentrate their efforts in Europe where the approval process (and subsequent sales) are likely to be much more rapid.

 

There are many unanswered questions at this early juncture, but it does seem clear that buying and using a WSI for clinical (not research) diagnosis would not be a prudent move at this point in time.  If you are currently using a WSI for primary clinical diagnosis, you had better have "state of the art" (whatever that is!) validation policies in effect, and even then your CLIA or CAP inspection is likely to be problematic.   Even when these instruments gain approval, their use for diagnosis at a distance will fall under the highly diverse state laws regarding telemedicine.  A topic I covered in one of my early blogs, "Down the Telepathology Rabbit Hole."

Published: 2/27/2012

Read more…

 

 

Stacey E. Mills, MD, a graduate of University of Virginia (UVA) and the UVA Medical Center, has authored nearly 230 articles, 20+ books, atlases and monographs—including the renowned Sternberg's Diagnostic Surgical Pathology. He has been a practicing Professor and Staff Pathologist at UVA for 30+ years and is Director of Surgical Pathology and Cytopathology. His clinical specialty is general surgical pathology with emphasis on neoplasms and neoplasm-like lesions. Dr. Mills is also Editor-in-Chief of The American Journal of Surgical Pathology.

 

Webinar: PathXL Tutor – Build a Microscopy Course

PathXL^TM Tutor: Digital Pathology Software for Education and Training

7th March 2012, 4.15pmGMT / 11.15amEST / 8.15amPST / 5.15pmCET

PathXL^TM Tutor allows users to create and manage digital slides and other content, publish online, share and view from anywhere in the world. 

Customers include The London Deanery, The Pathological Society of Great Britain & Ireland, University of Giessen, Royal Liverpool University Hospital and Queen's University Belfast.

Guest Speaker

Dr Stephen McCullough, Queen's University Belfast 

Why Attend

Learn how you can build online teaching modules for large groups of students and trainees, incorporating virtual slides, X-ray images, gross images and other multimedia. Test students and trainees using PathXL Online Test. 

No Digital Scanner? No problem! We have virtual slide catalogues covering a wide range of human and animal pathology, histology and cytology. The digital slides can be pre-loaded to your account. This means you can immediately start to build modules and use the pre-loaded slides as cases.

Click here to register

Back to the Future: Video Telepathology

 

The following non-bolded text that appears are excerpts from an upcoming book chapter to be published shortly.  

Preparation for the book chapter pre-dated now a couple of looks at Remote Meeting Technologies "Anytime, anywhere, anything!" technology that makes the claim "No specimen is too big or too small for iMedHD™ and our Be There Anywhere™ telemedicine solutions. Even gross specimens, autopsy, gram stains, and transbronchial needle aspirations can be safely and securely broadcasted to another location on site, across town, across the country, or across the world! The compact iMedHD™ is the ideal solution for cost effective, real-time High Definition sharing of images over the internet. iMedHD™ is compatible, flexible, and will enable collaboration on multiple applications throughout the pathology department and laboratories including Consultations, Gross, Intraoperative, Tumor Boards and FNA & TBNA".

Reviewing slides and gross images in high-definition got me to thinking about the first experiences with telepathology and video microsocopy: 

Telepathology is the practice of pathology at a distance, obtaining macroscopic and/or microscopic images for transmission along telecommunication links with remote interpretations (telediagnosis), second opinions or consultations (teleconsultation), and/or for educational purposes. “Tele” is a Greek prefix that means “distant.” Various terms that have been used in conjunction with telepathology include digital microscopy, remote robotic microscopy, teleconferencing, teleconsultation, telemicroscopy, video microscopy, virtual microscopy, and whole slide imaging. In the practice of telepathology, the original material (tissue, glass histology slide, etc) is separated by distance from the remote consultant (telepathologist). Remotely viewed digital or analog images, or digital whole slides, get interpreted by the telepathologist on a computer monitor (or even a cell phone screen) rather than through conventional light microscope eyepieces. Today, virtually ubiquitous access to the Internet, or to other broadband telecommunications linkages, on many continents, facilitates nearly global image sharing. As a result, telepathology has been used to aid a growing number of laboratories in providing pathology services over great distances, and has even been used by others to increase the efficiency of services between hospitals less than a mile apart.

With increasing sub-specialization in pathology, the use of telepathology to access subspecialists (e.g. neuropathologists, dermatopathologists) is also on the upswing and is proving to be cost-effective in at least certain settings. The practice of telepathology is not only limited to rendering diagnoses, but can also play important roles in quality assurance (e.g. re-review of cases), teaching, and research. When telepathology is widely viewed as an acceptable ancillary technique, it will likely become a common tool integrated into mainstream diagnostic pathology.

Pathology and oncology, just as the rest of medicine is becoming increasingly subspecialized, particularly in community settings.

Dr. Ron Weinstein introduced the term “telepathology” into the English language in 1986. In the late 1960’s, he was a pathology resident at the Massachusetts General Hospital (MGH) when the first real-time “television microscopy” service was established between the Logan Airport Medical Station and the MGH in Boston, Massachusetts.  He observed early demonstrations of the technology and became aware of the limitations of video microscopy when microscopic field selection was performed by a nurse or a medical technologist at the Logan Airport clinic.  The vast majority of cases did not require an on-site pathologist, since most of the clinical cases involved remotely viewing blood smears and urines. This Logan Airport television microscopy system was not used for surgical pathology cases.

Nearly two decades later, Weinstein differentiated video microscope technologies, including “television microscopy” and “video microscopy,” from “telepathology” for good reason. He proposed that the “practice of telepathology” would require that a “telepathologist”, who would be rendering a telediagnosis, should be able to control remotely all relevant light microscope functions (e.g., using a motorized, robotically controlled light microscope) in order to use telepathology for surgical pathology cases.  Ideally, selection of the diagnostic microscopic fields would be made by the remote telepathologist, using some type of dynamic telepathology system that would accentuate inclusive microscope field selection at a range of viewing magnifications.

Now, thanks to Remote Meeting Technologies, true high-definition, brilliant color, high-definition video is possible for pathology for both gross and microscopic imaging.  True 1920 x 1080p resolution shared very quickly over standard networks. 

No scanning, uploading or downloading required.  Point-to-point connectivity with browser-based viewer for ease of use and easy to control.  

Perfect technology for remote consultations, frozen sections, cytology evaluations, gross review at a distance, etc…

This is not to suggest you can avoid purchasing a whole slide scanner as well for the complete imaging platform but I think there is going to be a renewed trend towards live non-robotic imaging between pathologists, although the lack of stitching here to create an image is a nice point from the regulatory perspective, like, not subject to it…

True 1080p microscopy to share with colleagues, cinicians and patients with brilliant monitors to show every detail.  

If you are looking for real-time imaging with high-def video, check out Remote Meeting Technologies.  Combined with very low-cost high-speed networks you can share diagnostic quality images quickly and easily.

So now, more than 25 years after the first telepathology demonstration in this country, forget about low resolution of 300 lines over expensive satellite networks and the like,  and see pathology in high-definition.

It is fun to look back and to the future.  What will the next generation of this latest technology look like? Perhaps teleport to the bedside without the Delorean?

 

Telepathology became a newsworthy item in 1986 with the first public demonstration of a satellite-linked color-video dynamic telepathology system. Fort William Beaumont Army Medical Center in El Paso, Texas, and Washington DC were linked for the demonstration. The dynamic-robotic telepathology system used for the demonstration was designed and fabricated by Weinstein’s group at Rush Medical College, in Chicago in partnership with Corabi International Telemetrics, Inc., a Rush University spin-off company located in a nearby Illinois state-owned biotechnology incubator facility, in west Chicago. The Corabi patented technology combined the use of digital and analog video imaging for the first time. Digital imaging was used to produce a small tissue map, which was captured and displayed, in a low resolution digital image format, on a navigation system monitor. This auxiliary imaging system was used by the remote telepathologist to manage the robotic motorized microscope’s functions. The telepathologist always knew exactly where the motorized microscope’s objective was positioned in relation to the actual tissue section mounted on the glass slide.  Use of the auxiliary navigation system also helped ensure that each entire slide was imaged by the telepathologist-system operator in the course of a telepathology diagnostic session. The magnitude and expense of the effort to create this external navigation system reflected Weinstein’s high level of concern that the Achilles heel of telepathology could turn out to be inadequate histopathology image sampling. His concern proved to be well founded as “limiting sampling” static image telepathology (i.e., sampling of one or only a few fields), was practiced in early commercial static image telepathology systems. Such systems are no longer marketed in the United States. Real-time analog imaging was used for viewing the images of the slide during the diagnostic session in the Texas-Washington, D.C. robotic telepathology demonstration. 

The story appeared on page 7 of the Metro section in the Washington Post:

 

For the actual Texas-to-Washington, D.C. proof-of-concept demonstration of robotic-dynamic telepathology, a histopathology slide of a hematoxylin and eosin (H&E)-stained breast frozen section, was processed into a low resolution whole slide digital image, using a low resolution camera mounted on a light box. After the navigation system digital slide was produced, the same breast tissue frozen section slide was remounted on the stage of an Olympus remotely controllable motorized photo-microscope. A stream of analog video images, viewed on a larger monitor, was used for rendering the diagnosis. The analog video images were transmitted, via satellite, to the boardroom of COMSAT Corporation, in Washington, D.C. A telepathologist, Dr. Alexander Miller, seated at a Corabi prototype workstation, was able to control all of the functions of the motorized microscope in Texas, including stage movements, magnification, focus and illumination, while viewing the real-time images, at 525 lines of resolution, with a video monitor refresh rate of 30 frames per second. The navigation system, positioned near the large video monitor, displayed tissue mapping parameters.  Superimposed over the low resolution digital image of the breast frozen section, displayed on the navigation system screen, was a small box-shaped icon indicating the location and size of the field-of-view (FOV) of the glass slide being actively displayed on the main video monitor. Velocity of the stage movements, displayed as lateral movements of the small FOV box, showed the exact relationship of the light microscope’s objective lens to the underlying tissue section. The location of FOV was automatically updated as Dr. Miller, in Washington, D.C., robotically repositioned the glass slide on the microscope’s motorized stage in Texas. Changes in magnification initiated by Dr. Miller, by the press of a button, appeared natural. Focus was easily controlled during scanning of the slide, and readily re-established with each change in magnification. Two-way audio communication was maintained between the laboratory in Texas and the Washington, D.C. COMSTAT boardroom throughout the dynamic telepathology diagnostic session. Technicians and doctors in Texas were in constant communication with Dr. Miller.

 

 

 

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Regulators regulating digital scanners

In the words of Harry Caray – "Holy Cow!"  Karen Titus does an excellent job putting together this piece. Who else could use "Gentlemen, start your turtles", "Alan Greenspan" and also work in "From that perspective, a Class III, or even a Class II, classification, is overkill—like dropping a V8 engine into an Amish buggy" in the same article.

So much blog fodder here I have copied the entire article available for free from CAP Today with my comments below on some of my thoughts on this matter.

Courtesy of CAP Today - Regulators scanning the digital scanners by Karen Titus

A recent panel on whole-slide imaging launched a clear message from the Food and Drug Administration: The agency views WSI systems as Class III medical devices and plans to regulate them as such. Gentlemen, start your turtles.

- The FDA has about 1 million pages that are surprisingly easy to navigate on their website including a "How to Classify Your Device Page".  If I am reading this correctly, microscopes are Class I devices, as are colposcopes to diagnose cervical dysplasia and cancer, ditto for stethoscopes, holders for artificial heart valves and some defibrillators are Class 2 (roman numerals should only be used for really important things like Super Bowls). Defibrillators [CITE: 21CFR870.5300] are Class 2! 360 joules of energy that could save your life in a moment or cause death if you do not respond to the TV "CLEAR!". And a slide scanner is Class 3 because?  Oh, image quality, right. Apparently the FDA didn't look through the microscope I used today.  It was like rice crispies were stuck to the lenses. I am sure the article will provide clear detail on why and how these are Class 3 devices.  Let's read on.

While the FDA’s decision was clear, the next steps are anything but. Vendors, pathologists, the FDA, and the Centers for Medicare and Medicaid Services could head in any number of directions next, but they won’t be moving swiftly. In fact, those who were at the meeting are still dissecting the information presented at the panel, as if Alan Greenspan had delivered one of his famously tortured pronouncements from the Federal Reserve.

- Yeah, but unemployment was lower, at a nadir (don't get to use that word often) of 4% in the 1990s.  Double digit unemployment, financial collapse, Greece, Spain, housing crisis, fall of Lehman, etc… he only predicted once he started doing stand up to not be forgotten when the oft jovial and always comical Bernake took the chairmanship. Those tortured pronouncements in retrospect weren't as bad as this.

Depending on one’s view, the news will slow efforts to bring WSI for primary diagnosis into U.S. laboratories, with some vendors looking to Europe for regulatory relief; have virtually no impact on large vendors, who, while not necessarily enamored of the FDA’s decision, concede it’s one they can live with; kill the market completely; choke innovation among vendors, especially component makers; possibly put laboratories in jeopardy if they try to validate these systems as laboratory-developed tests under CLIA; or encourage laboratories to use WSI for other, already approved purposes, readying themselves for the inevitable day when whole-slide imaging transforms surgical pathology.

- Sprechen Sie Deutsch? - Come è il tuo italiano?

- I predict no impact, no choking, killing, or jeopardy or pocket translators needed to replace US sales; pathologists are conservative folks with supportive industry innovators and inventors; we will test, test and re-test, then test again and we will transform safely and accurately. 

What most agree on is that for the first time, the FDA, which regulates the vendor portion of the vendor-laboratory equation, has “put a stake in the sand regarding digital pathology,” says David Wilbur, MD, professor of pathology, Harvard Medical School, and chair, CAP Technology Assessment Committee.

Note that the stake is in sand. “I suspect there’s going to be a whole lot of give-and-take that comes about in the future,” says Dr. Wilbur, who was in the audience at the panel discussion, held at the annual Digital Pathology Association meeting last fall in San Diego.

In a follow-up interview with CAP TODAY, the FDA’s presenter on the panel, Tremel Faison, noted that her remarks reflect the agency’s current thoughts on digital pathology as it works through the issues, rather than an official announcement. “We anticipate eventually having another public meeting, and/or publishing the guidance,” possibly in the next year, she says.

- I think a formal document would minimize confusion on this matter and time is of the essence, particularly since this issue was first addressed in public forum in October of 2009 and mention of pre-market requirements was stated at that time which are similar in many ways to slides and comments from a few months ago. 

Download Faison_DPDevicesPanelMeeting2009

Nonetheless, this was not the usual runic message coming out of a federal bureaucracy. Faison, a former cytotechnologist who is now a regulatory scientist in the FDA’s Office of In Vitro Diagnostics, drew praise from those at the meeting. “There was some clarity from the FDA,” says Walter H. Henricks, MD, who represented the CAP on the panel. Until now, he says, industry and labs have largely been in the dark about how the FDA planned to regulate WSI systems for primary diagnosis. “This was the biggest piece of news coming out of the panel — and it was a big piece of news, even if not entirely unexpected,” says Dr. Henricks, medical director, Center for Pathology Informatics, and staff pathologist, Pathology and Laboratory Medicine Institute, Cleveland Clinic.

- A few editor's notes at this point: Tremel taught me everything I know about cytology as a pathology resident at The National Naval Medical Center (now The Walter Reed National Naval Medical Center) and I know she is doing what she can on this and we will all come out the other end better for doing so. I made some comments in November regarding what the CAP did, should have done and could do to help facilitate what is mentioned below as a several year process.  See:

http://www.tissuepathology.com/weblog/2011/11/did-the-cap-do-enough-for-digital-pathology-and-discussions-with-the-fda.html

http://www.tissuepathology.com/weblog/2011/12/what-pathologists-and-the-cap-can-do-to-assist-with-pma-process.html

The Class III label is used for devices the FDA deems as highest risk; to be approved, such devices require general controls (such as quality system regulation and good manufacturing procedures) and premarket approval. A lower level of clearance, Class II, refers to moderate risk devices that already have a predicate device on the market. The lowest-risk device, Class I, requires no pre-market notification.

Dr. Henricks sees no gain in dwelling on the FDA’s reasoning in classifying WSI systems as Class III. “The facts are what were presented,” says Dr. Henricks, who is also a member of the CAP’s Council on Accreditation and of the Diagnostic Intelligence and Health Information Technology Committee.

- In seeking absolute truth we aim at the unattainable and must be content with broken portions.

- One of the first duties of the physician is to educate the masses not to take medicine.

Sir William Osler

A couple of the larger vendors also show an unwillingness to engage in debate; they prefer to keep plugging away, like infantrymen, to bring their systems to market. The Class III announcement barely made them look up. And while it may have opened a door, no one expects to pass through it anytime soon. The last time the FDA participated in a public forum to discuss WSI regulation was 2009, says Dirk Soenksen, president of Aperio. At that time, observers say, the agency appeared to be gathering information. “Now, two years later, we’re finally able to hear some of the learnings they’ve digested. That shows you the pace at which FDA is working,” says Soenksen, who was at the recent DPA panel.

- A snail's pace?  Already used "turtle" twice in this post.  Besides, he beats the hare so not sure we are good using turtle (OK, 4 times in this post).

Soenksen says the Class III label didn’t surprise him. “But the fact that it surprised some shows you the confusion that exists in the marketplace,” he says.

The confusion exists even at the most basic level, particularly among those who think the FDA’s regulatory hand smacks a little too hard. Faison says she’s routinely asked about the agency’s reach by those who say the microscope isn’t regulated—and since it’s not, they argue, why should devices performing similar functions be tightly regulated? From that perspective, a Class III, or even a Class II, classification, is overkill—like dropping a V8 engine into an Amish buggy.

In fact, Faison explains, microscopes are regulated as Class I devices. That astounds some pathologists, who think, “Nobody regulates my microscope . Why would they regulate my scanner? It’s doing the same thing,” says Anil Parwani, MD, PhD, who spoke at the DPA meeting about the CAP’s recommendations for validating WSI. Digital pathology may be a familiar topic, having been around for a decade or so, but until now regulatory oversight hasn’t been a big part of the conversation.

That’s especially true at trade shows, says Dr. Parwani, where the mushrooming presence of digital devices over the last five years is devoid of anything as mundane as regulatory information. “Not many people know that FDA is even looking at regulating whole-slide imaging,” says Dr. Parwani, division director of pathology informatics, University of Pittsburgh Medical Center.

Those who expected WSI systems to be Class II devices can debate all they want, Soenksen says, but, “That ship has sailed. They’ve made up their mind that this is a Class III, which is why most people are going to Europe with this technology, not the U.S.”

For vendors committed to the U.S. market, the pace to market will be somewhat stately. “You’re talking five years at the earliest when someone’s going to get an approval,” Soenksen says. “People don’t like to face up to that truth, but that’s the timeline.” The FDA will need to clear a vendor to do a clinical study; the vendor will need to do the study; and the FDA will have to approve the PMA.

- Propose 5 pathologists, 5,000 cases, 5 days to achieve "ground truth/panel/consensus disgnosis", then 5 different pathologists each looking at 1,000 cases on both screen and (exempt) microscopes with 5 week washout.  Get cheap monitors from BestBuy as to establish minimal technical equipment needed and microscopes with rice krispies dessicating on objectives, typical of many clinical laboratories to replicate "real life".  5 years too long.  Eli and Tom will be in the Superbowl again.

Faison declined to comment on when the FDA anticipated receiving vendor submissions.

- After football season is over and before baseball begins.  Also known as "February".

Aperio had been talking with the FDA about clinical studies even before the Class III announcement, and it hopes to have an acceptable study design soon. “We’re going to be the first company to get FDA approval,” Soenksen predicts.

Another large vendor, Omnyx, has been in talks with the FDA as well, says Michael Montalto, PhD, one of the company’s founders and vice president of clinical and regulatory affairs. The Class III billing didn’t surprise him, either. “We have a pretty good sense of what we need to do,” says Dr. Montalto, who also attended the panel. “But that’s not as a result of the announcement—it’s because of our continued back and forth with the FDA.”

Dr. Montalto puts a positive spin on the news. “The device will be safe when it comes out. You have to be happy about that.”

- The best interest of the patient is the only interest to be considered

William J. Mayo

Safety, after all, is at the heart of the Class III label. Listing the potential risks of WSI systems, Faison says, “We’re very concerned that the image quality is as good or better than when using the light microscope. Is it like that for all surgical pathology specimens or only for a segment of surgical pathology specimens? What are the differences in human interaction between viewing under the microscope and navigating on the computer screen?”

To answer such questions, the FDA will require clinical studies to validate performance. Here’s where confusion re-enters the room, forcing players to engage in, if not quite brinkmanship, at least a little blinkmanship.

It’s not clear, for example, what types of clinical studies vendors will need to conduct as part of their PMA submissions. Faison gave some general guidelines at the panel, but until the agency receives its first vendor submission, the FDA’s specific desires are likely to be a mystery. “We don’t have all the answers,” Faison says. The more specific vendors can be with their proposed clinical studies, observers say, the easier it will be for the agency to decide whether to grant a green light.

Another unanswered question: How broad or narrow can an intended use be? Will approval be given for diagnosing, say, breast cancer, but not colon cancer? Prostate biopsies but not endometrial biopsies? Or cancer, but not inflammatory skin conditions? “A huge question,” Dr. Henricks says. “I wish I could give you more clarity. I wish I could give me more clarity.”

“This is a tough question,” Faison says. “We don’t want to see a submission for just one organ system—say, breast.” That’s not a realistic intended use, she says, “and we realize that a laboratory would not buy for just that indication.

“On the other hand,” she continues, “performing a study for all of surgical pathology, including frozens, special stains, etc., would be one huge and hardly manageable submission. We are encouraging sponsors to take a hard look at how these devices will most likely be used in the laboratory, employ a ‘fit for purpose’ mentality, and frame their intended use (and therefore clinical studies) around that.” She adds that vendors will need to define the physical and technical characteristics, such as focus, resolution, and color, prior to beginning their clinical studies; in addition, they’ll need to look at what she calls a clinically balanced population.

- Paul Valenstein, MD I think gives the best talk on the issues raised in the last 6 paragraphs.  I heard him speak on these issues at a talk several of us gave at USCAP last year.

Download Valenstein_companion06handout

I recall something about needing 65,000 cases but not hemepath, cytology or pigmented lesions

Vendors are dropping few clues themselves. Regarding Aperio’s submission, “It will be as broad as FDA allows it to be,” Soenksen says, punctuating that sentence with laughter.

Vendors are struggling with this issue, Dr. Montalto says, and some are irked that they’ll need to make the first move. But he reminds his industry colleagues that this is a relatively new field. Previous summary statements and clearances aren’t useful guides; every device will have its own nuances, and it’s up to vendors to discuss them with the FDA. “I think they learn a lot from their discussion with vendors. They’re getting educated on this process, too,” he says.

While vendors and the agencies continue their parry, Soenksen sees an opportunity for pathologists to step up. “My personal view is the College needs to lead this,” he says. He suggests that the FDA is looking for cover from the pathology community—if pathologists, and the CAP, made it clear they support WSI and are ready to use it, he says, the FDA would feel more comfortable bringing the systems to market.

The FDA has also irked some pathologists, Dr. Montalto observes, though he speaks diplomatically, gently pointing out that the AP community, in comparison to CP and other clinical specialties, may be less familiar with the demands of bringing new technologies to the marketplace, including the regulatory environment and its requirements for technical validation and understanding the risk profiles of every device.

The FDA will look at the accuracy of the whole-slide imaging approach and the accuracy of the traditional light microscopy approach, comparing both to an adjudicated standard. This reference standard will likely be determined by a panel of three pathologists; agreement by two of the three creates the reference diagnosis. Dr. Wilbur’s preference would have been to consider the glass slide interpretation the de facto gold standard, and then compare digital to that. This approach is more in line with submitting a 510(k) rather than a PMA, showing essential equivalence to a similar, standard technology. “The glass slide is the current gold standard—this type of PMA approach tests not only WSI interpretation, but also the glass slide standard. It will be interesting to see how this sorts out. WSI could turn out to be better with this approach—who knows?” says Dr. Wilbur.

- A growing number of studies have shown superiority of virtual microscopy versus light microscopy (See: http://www.tissuepathology.com/weblog/2011/10/superiority-of-virtual-microscopy-versus-light-microscopy-in-transplantation-pathology.html)

- This could be bad for microscope manufacturers and what about all the diagnoses made on these barbarian, exempt devices?

The FDA’s approach also requires a so-called washout period, during which the pathologist theoretically forgets the initial diagnosis before making a diagnosis on the second technology. “How long do you need to make the study not biased?” Faison asks. “I think randomizing the read order may help with that.”

- I may not remember your name, but I never forget a face.  Excuse me, have we met somewhere before?  But if you change the read order you already know that the first case is not the first case, or the last the last, unless of course it actually is which sounds like something Dr. House would say but most of us know if you are playing Monopoly and you are the thimble and on Connecticut Avenue and roll a nine then you go to Tennesse Avenue and a subsequent 7 puts you on B&O railroad and 8 more gets you Community Chest.  With enough cases (see reference to 65,000 cases above), this might work.

If all this sounds familiar, that’s because it’s similar to the FDA’s approach to regulating automated cytology, says Dr. Wilbur. But it may be more problematic for WSI systems, he says, especially the washout period. “Cytology slides are more difficult to remember, but I would suspect that memory of surgical pathology specimens will be more difficult to wash out,” he says. The FDA’s proposed washout period is a week minimum, Faison says, though she adds that two to three weeks would be optimal. (A CAP workgroup on WSI validation said it has found no widely accepted washout length and has recommended a three-week period.)

- Propose minimum of 2 weeks.  Absolute minimum.  More than 3 weeks ideal. Increases the chances the slides could be lost, broken, misfiled, destroyed or reused. Usually still in the pathologists office for 2 weeks and cannot be uncovered or identifed as broken or destroyed.

“In addition,” queries Dr. Wilbur, “what about other important aspects of a surgical pathology case?” Compared to cervical cytology, he says, where each case has only one reference diagnosis, surgical pathology specimens may have many aspects to test. In addition to a diagnosis of, say, colon cancer, the pathologist is also expected to grade the cancer, assess the margins, the depth of invasion, and so on. If these parts of the case do not match, how will the FDA handle that? Such patient care issues will make design of the studies potentially complicated, he says.

Beyond this, Dr. Wilbur fears that the FDA’s proposed studies will be too expensive and too difficult for smaller companies to conduct. With the advantage falling to larger companies, it could curb innovation.

He’s particularly concerned about how component makers will fit into the picture. Right now, they don’t. The FDA regards WSI as a system, and that’s the regulatory pathway it’s providing. Dr. Montalto suggests the FDA will eventually take another look at this. But near term, it will likely have a chilling effect on component providers, Soenksen says.

Some fear the decision could be stifling. Pathologists won’t be able to mix and match components as they see fit, and large vendors will have little if any incentive to design flexible systems. “What the FDA presented is the easiest solution,” says Dr. Wilbur, who wants more thought devoted to this issue. How will makers of scanners, image-management systems, or viewing stations break into the primary interpretation market? “They’ll be left out in the cold. This has to be addressed.”

Dr. Wilbur’s concerns point to another mudslide in the making. By recognizing WSI as a system, rather than individual components, the FDA also stated it did not see whole-slide imaging as a laboratory-developed test, which originates in the lab and is put together from initial components. Where does that leave labs that want to validate a non-approved WSI system?

“I’m doing my best to piece this together,” says Dr. Henricks, who adds that the matter has now been tipped into CMS’ lap. “What is CMS going to do about this if they find a laboratory using it? What if the laboratory has done a good validation for its intended use in the lab? What happens?”

- Take home message: We are not actually talking about regulators regulating whole slide scanners (without a predicate device), we are actually talking about regulating whole slide systems.  Entire ecosystems – stainers?, scanners, monitors, servers, viewers, pathologists?

It’s not hard to extrapolate further and ask about the implications for CAP inspectors enforcing CLIA. The answers could be scary.

“It’s a panic issue right now,” says Dr. Parwani.

- A perfection of means, and confusion of aims, seems to be our main problem.

Albert Einstein

Attempts to clarify matters further at the panel failed, attendees and panel members say. It wasn’t clear, for example, whether WSI systems that have already received FDA clearance for select use (for example, automated image analysis of breast markers) or for research use only can be validated as LDTs, Dr. Henricks says. FDA regulates manufacturers of medical devices, whereas CMS/ CLIA regulates testing that occurs in clinical laboratories. “I think sometimes it’s a misperception that the FDA directly regulates clinical laboratories, outside of blood bank,” Dr. Henricks says.

Dr. Montalto says that in his conversations with the FDA, the agency appears understandably uncomfortable with the idea of labs employing WSI systems for off-label use. He says the potential for this is a major reason the FDA wants vendors to move quickly on their submissions, so the devices can be proven safe for their intended uses.

- I hope not too quickly here we still need another public meeting and possibly a guidance document possibly in the next year.

Dr. Henricks makes it clear that the CAP accreditation program is not taking a public position on this and will harmonize with the FDA and CLIA and their requirements. “We look to them for some guidance on how to approach this topic,” he says. At the same time, he says, it appears that the CMS would welcome input from the CAP on how to address WSI for clinical purposes.

- I recognize CAP is in a tough spot here and everyone is looking to everyone else for guidance. Please give these folks enough guidance to make the decisions we need them to make. A blocked path also offers guidance.  (Last 2 lines with apologies to Mason Cooley and Jimmy Johnson.  Who else can use these 2 names in the same sentence, huh?). See if CMS would welcome input from the CAP on additional billing codes for some of these services.

In the meantime, the CAP has already begun addressing WSI via the aforementioned workgroup, which was convened by the College’s Pathology and Laboratory Quality Center. The group (Dr. Parwani and Dr. Henricks are members) put together 13 draft statements for laboratories that want to validate WSI systems. The CAP currently has no accreditation program checklists on WSI validation, but the recommendations might be part of a future such checklist.

- The only question then is who drives this may be, could be, future such checklist, The College’s Pathology and Laboratory Quality Center, CAP’s Council on Accreditation, Diagnostic Intelligence and Health Information Technology Committee or The CAP Technology Assessment Committee. I think a committee should be formed to organize these committees.  

The CMS representative on the panel, Debra Sydnor, CT(ASCP), says CLIA is interested in the workgroup’s recommendations. “That is very helpful to us,” she says. But it’s hard to know how that interest will translate into practical action and, ultimately, regulatory compliance.

- One should avoid using the terms "practical" and "regulatory" in the same sentence.  Kind of like saying "Notre Dame" and "football" for the past decade and a half.  It doesn't sound right.  And are we talking about regulations or compliance with said regulations.

Ideally, labs should consider holding off on using WSI for clinical purposes until a system has FDA approval for the appropriate intended use, says Sydnor, cytologist, CMS Division of Laboratory Services. She realizes this is a quixotic notion. Sydnor says she’s been fielding calls from laboratories that intend to use—or are already using—WSI for testing that involves H&E. Most of the questions concern the holder of the CLIA certificate—i.e. where is the final testing done?—rather than validation. For CLIA purposes, the pathology test is the specimen grossing and the microscopic slide interpretation; therefore, the location where they are performed must have the appropriate CLIA certificate and meet the applicable requirements.

- Increasingly grossing/histology services are becoming consolidated and where the tissue is grossed and slide read are different facilities. And a third location could be where the image being used to render the diagnosis is reviewed.  

She advises laboratories to look to CLIA regulation 42 CFR 493.1253 for guidance regarding off-label use of the device under CLIA, but notes that additional formal guidance, specific to WSI, will be forthcoming from the agency.

- Until then go to http://edocket.access.gpo.gov/cfr_2010/octqtr/pdf/ 42cfr493.1254.pdf for the aforementioned reference above.

What will happen if a CLIA inspector encounters a laboratory using WSI for clinical purposes? The lab will have to demonstrate appropriate validation, policies and procedures, and other CLIA-related quality assurance practices, as it would for any test, she says, but that’s not the end of the story. “This will involve training and instruction within CLIA,” Sydnor says. “This area of automation is all new to them [CLIA inspectors] as well.”

- What?  Level of automation? What level of automation? Validate the slide scanning, disk spinning, pixel transfer?  What is being manufactured that will reduce the need for hard physical labor and/or monotonous work.  We are actually adding additional steps and work and effort in this process.  What humans are being replaced by what instrumentation that would justify the sheer mention of "automation".

She makes clear that CLIA is neither granting permission nor encouraging laboratories to use WSI imaging for clinical purposes right now. At the same time, “CLIA is not out to witch hunt anyone,” she says. “We basically want to know what you’re doing, how you’re ensuring quality testing, and what it is you’d like to do.” Like everyone else at the table, she says, CLIA is seeking data about how well, and how safely, these systems perform.

- Translation: We work for the government and we are here to help.  We are not saying that you can't, but we are not saying that you can either.

Meanwhile, what’s a less-adventurous lab to do?

A surprising amount, as it turns out. As Dr. Henricks notes, digital pathology remains viable for uses other than primary diagnosis, including quality assurance, secondary consultations, education and research, and automated image analysis.

Labs should continue using WSI in approved ways, Dr. Parwani says, which will let them move quickly once the systems earn approval for primary diagnostic use. Here the CAP working group guidelines will be valuable, he says, since they’re extensively annotated and draw on available data as well as user experience. Labs can use the guidelines to ensure they have all the components in place and the right workflow as they prepare for the eventual shift to WSI.

- In 5 years we can jump on this right away.

Dr. Wilbur and his colleagues mostly use WSI for continuing education, but in mid-December they inked a contract with an image-management system company, setting them up to do what he calls “intramural” consultation. This will allow pathologists to share cases in the system across multiple desktops, including those at regional affiliates, and enable second opinion consultations to flow into the institution from outside sources.

At UPMC, Dr. Parwani and his colleagues continue to use digital pathology, as they have for the past couple of years, for education, research, QA, and getting opinions from colleagues. They use it for image analysis of breast markers, and they are starting to accept consults from other countries and institutions for second opinions. “We’re trying to use it for all the intended uses that are approved,” he says. They’re participating with a vendor in clinical trials to prepare its system for premarket approval, and their interest in primary diagnostic use looms large. “Most of our pathologists are very comfortable with looking at digital images and looking at digital slides,” he says.

- Who mentioned anything related to pathologists actually being able to read these images and help providers take care of people.  When was pathologists abilities to do their jobs to the best of their abilities with the right training, experience and equipment discussed in this process? You mean pathologists can actually do this today? Read images?  Like through a microscope?  Or a gross photo?  Or an electron micrograph?

“There are so many things you can do,” he adds. “This should not stop your march toward digital pathology.” The DPA panel, in his view, was merely one step in the process. He, like Dr. Montalto, even sees it as a positive one. “FDA is looking at it, and we’re going to have a good product in the end.”

- “Everything will be all right in the end. If it’s not all right, then it’s not the end.”

 Karen Titus is CAP TODAY contributing editor and co-managing editor.

Of the FDA’s decision to regulate whole-slide imaging systems as Class III devices, Aperio president Dirk Soenksen says, “They’ve made up their mind. . . . You’re talking five years at the earliest when someone’s going to get approval.” How broad will Aperio’s submission be? “As broad as FDA allows,” he says.

 

Faison

 

Dr. Henricks

 

Dr. Montalto

 

Dr. Wilbur

 

Dr. Parwani

Introducing ViewsIQ to Digital Pathology

Many are predicting 2012 will be a tipping point for the digital pathology market.  With that prediction, comes the latest slide scanner company to enter the space.  Introducing ViewsIQ out of Vancover offering an interactive slide scanning system that integrates with rather than replaces the microscope.  Check out their YouTube videos and images on their website.  Their website also mentions they will be exhibiting at USCAP 2012 at booth #814. Look forward to seeing their technology in action. 

Canadian-based slide imaging technology company, ViewsIQ, announces their entrance to the digital pathology market. Their flagship product, Panoptiq, is designed to bring real-time slide digitization and affordable telepathology to the world of virtual microscopy.

ViewsIQ develops innovative microscopy imaging systems for hospitals, research institutions and laboratories. Panoptiq allows real-time communication between microscopists and pathologists anywhere in the world. With Panoptiq, the user can interactively create a digital scan of their slide with a microscope then easily share the digital scan for consultation purposes.

                        

 
Herman Lo, CEO of ViewsIQ, said, “Our mission is to create an easy-to-use and low-cost slide scanning solution that integrate intricately with the typical workflow of a microscope user. We are excited to introduce Panoptiq, the world’s first interactive slide scanning system.”

"The image acquisition and slide-scanning speed is in real-time, making the experience truly interactive” said Jason Fung, VP Sales & Marketing of ViewsIQ. “As a software-based solution, Panoptiq eliminates the need for expensive hardware in conventional slide scanning systems. Our clients feel that Panoptiq is the most natural and affordable way to scan slides with microscope.”

Visit http://www.viewsiq.ca to learn more about their solutions.

ViewsIQ is a Canadian healthcare technology company that develops microscopy imaging solutions for research and clinical laboratories. Its recent innovation called Panoptiq™ is set to create a revolution in pathology practice. This tool enables pathologists to view their slides digitally in real-time with no delay to their workflow.

The company has a very well experienced management and technical team consisting of engineers and MBAs as well as a strong advisory board consisting of industry experts and university professors. Concerted efforts of these teams will ensure long-term aggressive growth of the company.

The target customers for this product are all the hospitals and diagnostic centers around the world. The company plans to grow rapidly in North America in the next few years and then leverage this scale to further expand to other continents.

 

Source:  viewsiq.ca

 

Pathology Labs Replace Microscopes with Digital Imaging

By Labmedica International staff writers Posted on 29 Dec 2011

Non-US deployment of Aperio platform with image storage on a Hitachi platform.  400,000 glass slides annually at a rate of 300 TB of storage per year.  Very cool. Look for more adoption overseas this year.  

Microscopes are being replaced with digital imaging in pathology laboratories in the southern part of Sweden.

Traditional microscope glass slides are turned into digital images, which are then analyzed by pathologists directly from the computer screen, instead of using regular microscopes.

The revolution, which has already occurred in radiology, is now taking place in pathology. The contracted delivery not only digitizes the slides but also will completely renew IT support for all workflows of the pathology laboratories in the Skåne region.

Labvantage (Somerset, NJ, USA) will deliver a USD 4 million turnkey solution for digitizing the histopathological workflows in the whole region. The system will be possibly the largest such installation in the world and among the first of its kind in northern Europe. The digital slides will reside in Hitachi’s (Tokyo, Japan) Content Platform, which employs distributed object storage. All of the images will be kept well protected and duplicated across several physical discs. This makes the traditional backing up of data unnecessary.

Currently the four pathology laboratories run by Region Skåne produce about 400,000 histological microscope slides a year. The samples are prepared into microscope slides and are then physically distributed to pathologists. Slides are then analyzed using regular microscopes. There is currently limited IT support for the workflow, making it difficult to track the status of pending cases and to identify the bottlenecks in the production workflow.

The difficulties in this method are mostly related to physical slides, which can only reside–and be analyzed–in one place at a time. With the digital pathology in place, all pathologists from all laboratories of Skåne can gain access to all cases and related slides. Together with the introduction of digital pathology, another goal of Region Skåne is to introduce so-called LEAN workflows.

The digitizing will not only ease the distribution of slides for the pathologists’ viewing but will also solve the needs for storage. Swedish law requires Region Skåne to keep all slides for a minimum of 20 years, and today this requires a lot of physical space. It is also difficult to retrieve a particular case from the archive. In the digitized format, the annual production of about 400,000 glass slides will consume 300 terabytes of storage each year.

The unique changeover both in its scope and in scale is to be supplied by Software Point. A key component in the delivery is a new workflow management system, which will manage both the preanalytical and analytical stages of the laboratory process. An adapted version of Software Point’s (Espoo, Finland) C5 LIMS will be in total charge of managing the workflows and tracking all events within. It will maintain a real-time status of each sample, slide, and case, and will ease the work of both laboratory technicians and pathologists with advanced functionalities such as integration to laboratory automation, datamatrix labeling of all objects, and speech recognition for pathologists.

"This is an important milestone for us. Our workflow-centric C5 LIMS, complemented with the best of breed systems from Aperio (Vista, CA, USA) and Hitachi, make up a solution unlike anything else on the market. We see tremendous potential in digital pathology and this is one key element in our strategy for further expanding the position of our LIMS in the healthcare marketplace," comments Andrea Holmberg, CEO of Software Point.

Related Links:
Labvantage
Software Point
Aperio

 

Real-time Colon Polyp Histopathology

Technologies Are Advancing But Face Some Hurdle

by Gabriel Miller – Gastroenterology and Endscopy News

I was going along with story and understand the background, need and data to biopsy what amounts to normal or minimally abnormal tissue of no clinical significance until the author appropriately mentioned the key issue here for adopting this in the 3rd to last paragraph of the story.  We are not talking about missing a signifcant lesion that could be a precursor to a colon cancer down the road.  I undertand this even more if imaging technologies improve to appreciate at the in-vivo level what would be anticipated by histologic examination and predictive of morphology and hence clinical behavior and outcome. 

I also recognize that of the millions of colonoscopies that generate millions of biopsies, fewer biopsies means less cups of specimens, blocks, slides, images and of course, money.  My pathology brethren and I will look at more abnormal biopsies but fewer overall.  The percent of "normal colonic mucosa" diagnoses for colonoscopies goes down.  OK with all of that.  Also recognize that the savings of all the formalin, wax, glass, staining and printing equipment and supplies could save millions if not the billion in the article below.  That is good news too.  Medicare might yet be around for me when I need it.

Unless I missed it I don't see a pathologist referred to in here or interviewed or quoted about any of the downstream economic impact but that is OK too.  We all have a responsibility to control costs and the gastroenterologists here can do their part.  If it means saving lives and improving quality of life without unnecessary pathology, radiology, surgery or GI follow-ups, so be it.

Of course there is a small problem here.  Particularly for gastroenterologists that employ pathologists in their own in-office laboratories (IOL) and share in the revenue from collecting and producing a glass slide (technical services), if not part or all of the pathologist's professional services.

If an endoscopist with a IOL with the intent of processing biopsy specimens in a high-quality, under one roof, integrated clinicopathologic sign-out, etc… which are all possible and probable AND there more biopsies you do and the more tissue you process and the more money the endoscopist makes, you need one thing – the biopsies.

So, I am Dr. Rectum, a gastroenterologist who made the investment in space, equipment, supplies, probably some form of a AP laboratory information system and personnel, technical and professional, to provide full-service laboratory services, then I am probably not going to change my practice to doing fewer biopsies.  There are gains to be made in cost savings with increasing volume with histology processing.  If you have to run the machines and buy the pink and blue dyes, you can do so as effectively with more tissues and slides than you can with fewer. 

For the record, I am not suggesting for a minute (though some have with some data from CMS and others) that IOLs cause a spike in the number of biopsies being performed or parts being collected on a single case.  All I am saying is the community guys, particularly those with IOLs or other billing schemes that where fewer biopsies is a disincentive and hits their left hip rather than someone elses are not going to go for this. 

Chicago—After the American Society for Gastrointestinal Endoscopy (ASGE) released a key position statement in March, the concept of voluntarily not submitting certain diminutive colon polyps to histopathology took one step closer to becoming clinical practice, moving from academic centers to community endoscopy suites.

The ASGE’s position paper, “Preservation and Incorporation of Valuable Endoscopic Innovations (PIVI) on Real-time Endoscopic Assessment of the Histology of Diminutive Colorectal Polyps,” establishes a priori diagnostic and/or therapeutic thresholds for endoscopic technologies that will allow endoscopists to better determine which polyps pose a risk to patients (Rex DK et al. Gastrointest Endosc 2011;73:419-422).

The document states that provided a technology is 90% accurate in predicting surveillance intervals compared with standard histopathology, endoscopists can “resect and discard” polyps that are less than 5 mm based on their real-time assessment of histology. Alternatively, endoscopists can choose to leave suspected rectosigmoid hyperplastic polyps that are less than 5 mm in place.

“The general approach taken by the ASGE is that if a given technology meets the criteria with regard to performance, then the ASGE would endorse it,” explained Douglas Rex, MD, professor of medicine and director of endoscopy at Indiana University, in Indianapolis, who is first author of the ASGE position statement and chair of the PIVI committee.

Real-time Technologies in the Running

There are many ways to classify the available technologies for real-time polyp histologic evaluation, but two main groups emerge. One group, called virtual histology, comprises the imaging technologies that most closely mirror an actual histopathologic analysis, including endocytoscopy and confocal laser microscopy. These are capital-intensive, small-field, difficult-to-learn technologies, and may be less likely to gain a following in the market.

Endocytoscopy uses ultra-high magnification (450-1,125×) through a catheter-type endoscope that can be used in combination with chromoagents. Although endocytoscopy cannot reach a depth beyond superficial cell layers, it is considered virtual histology because it can provide an “optical biopsy,” similar to looking at a slide under a microscope.

Confocal laser microscopy can acquire high-resolution optical images at selected depths and creates a three-dimensional reconstruction of the interior of a specimen. The technology is currently available to physicians in the United States.

“Of these technologies, [confocal laser microscopy] is the best-studied; it provides real virtual histology; and I think it’s very effective at answering the simplest question, the one that the PIVI suggests is the greatest clinical need: ‘Is a polyp an adenoma or is it hyperplastic?’ ” Dr. Rex said.

Confocal laser microscopy comes with several downsides, however. The confocal laser microscope is a separate attachment to an endoscope and is relatively expensive compared with other real-time technologies. It also requires specialized training to accurately identify polyps, and perhaps most importantly, requires the endoscopist to take additional time during the colonoscopy to assess the image and make a judgment.

“I think it’s unlikely to be taken up on a widespread basis unless there is reimbursement for it, and I don’t think the reimbursement issues are clarified well enough,” said Dr. Rex.

The second group of real-time technologies uses less expensive, easy-to-use and readily available technologies, known as large-field or “push-button.” These technologies are now standard on the latest-generation colonoscopes. The large-field technologies include narrow-band imaging (Olympus), i-Scan (Pentax) and FICE (Fuji). Although each of the technologies is different, the principle behind them is the same: By passing a number of unique, filtered wavelengths of light through tissue, the images can be reconstructed to produce clearer, more distinct pictures of the mucosal surface, particularly the vasculature. By analyzing the “pit,” or vascular patterns, of polyps, endoscopists can determine whether they pose a risk to patients.

From Academic Centers to Community Endoscopy Suites

Presently, the biggest question is whether these technologies will translate to the gastroenterology community at large.

“In academic centers or those dedicated to this kind of research, the accuracy for predicting polyp types is very good, so the next real hurdle is how to get that into the broader community where the vast majority of colonoscopies are done,” said Michael Wallace, MD, professor of medicine and director of research for medicine in the Division of Gastroenterology and Hepatology at Mayo Clinic, Jacksonville, Fla., where he studies advanced endoscopic imaging technologies.

Many of the technologies are well studied in research environments. The PIVI statement, for example, cites more than four dozen studies, most within the last 10 years, looking at the accuracy of real-time technologies. Most of the studies have demonstrated an accuracy rate in the low 90th percentile, with rates dipping slightly for push-button, filtered-light technologies and often hitting 99% in studies of confocal laser microscopy.

Although actual data are lacking on how well the technologies perform in community settings, there is evidence that at least some of the techniques can be quickly learned. In a study published last year in Gastrointestinal Endoscopy (Raghavendra M et al. 2010;72:572-576), Dr. Rex and colleagues demonstrated that “narrow-band imaging can be learned in 20 minutes” among a group of endoscopists that included medical students and fellows as well as faculty. A short teaching session describing the differences in appearance between photos of hyperplastic and adenomatous polyps increased accuracy from 47.6% to 90.8% (P=0.0001) and raised interobserver agreement to a kappa score of 0.69.

Amit Rastogi, MD, has led similar studies with fellows at the Kansas City VA Medical Center, in Kansas, the findings of which were also published in Gastrointestinal Endoscopy (Rastogi A et al. 2009;69:716-722).

“I have a feeling that community gastroenterologists can easily learn these patterns,” he said. “Can it be learned and put into practice? Yes, absolutely.”

Another important advantage to voluntarily withholding certain diminutive polyps from histopathology is the substantial savings this will allow. One study reported that if endoscopists stopped sending diminutive polyps for histopathology, the health care system would save as much as $1 billion annually, said Dr. Rastogi, director of endoscopy at the Kansas City VA Medical Center and associate professor of medicine at the University of Kansas. A more conservative estimate was $33 million annually, still a significant savings (Hassan C. Clin Gastroenterol Hepatol 2010;8:865-869).

“Although the costs [per colonoscopy] are relatively low, when you multiply them by the number [of specimens] removed and by 14 million colonoscopies, the numbers become substantial,” said Dr. Wallace. Specifically, he said, roughly 14 million colonoscopies are done annually in the country each year, and about 50% of those generate a pathology specimen.

The Final Hurdles

The large-field, push-button technologies are now standard on new colonoscopes, but real-time histologic assessment has not become standard practice. Although real-time histologic technologies seem poised for widespread adoption, there are market forces, at least on an individual level, aligning against it.

“It’s very difficult to change practice,” said Dr. Rastogi. “As colonoscopists, we are used to removing all the polyps that we detect and sending them to pathology to get a diagnosis. We were trained to do that; that’s how we think we prevent colon cancer.”

One reflection of this mindset, at least for the time being, is that a “resect and discard” approach goes against the published policies of many hospitals as well as national colonoscopy guidelines.

“A lot of hospitals have a policy that if you remove tissue you are required to send it to pathology,” said Dr. Rex.

Currently, the national guidelines suggest that all significant polyps should be removed and subjected to histologic examination, so any other approach might be considered noncompliant, Dr. Wallace added. However, if studies confirm that real-time analysis is accurate in the community setting, these published policies will likely change as the prominent gastrointestinal societies endorse the new approach.

An issue in confirming the accuracy of real-time analysis in the community setting is that in vivo assessments take time. It may not be incredibly time-consuming on a per-polyp basis, but over the course of a day of colonoscopies, it can add up.

“You’re now asking the physician to spend an extra minute or two and sometimes a little more to diagnose a polyp and make a call,” Dr. Wallace said. “Physicians are already being pushed to do everything we do faster and more efficiently, see more patients, do more procedures. And this is yet another task that is not reimbursed at all.”

A bigger challenge, perhaps, comes from fear of medicolegal problems.

“In the minds of the endoscopists, there will be a medical-legal angle to this,” Dr. Rastogi said. “What if you leave behind a polyp that you thought was hyperplastic but actually the patient goes on to develop cancer? That lurking fear in the mind of the endoscopist can be a deterrent that prevents them from adopting this [practice].”

Dr. Wallace added, “If some untoward event occurs, the patient gets cancer in the next five or 10 years, the [patient] could look back and say you didn’t follow the guidelines.”

One more financial hurdle has to do with the perceived conflict of interest among gastroenterologists who employ pathologists in their surgery centers. There is a natural incentive to generate pathology in these settings. “Although I think physicians are ethical, there is an incentive in that setting, because you’re reimbursed for the pathology costs, not to change that practice,” Dr. Wallace said.

So, with these downsides, what would motivate a busy gastroenterologist to incorporate these technologies into his or her practice?

“That’s a valid philosophical question,” said Dr. Rastogi. “There might not be any immediate gain to the endoscopist, but I think if you look at it from a broader perspective you are saving a lot of health care dollars. The main advantage is cost savings to the health care system and all of us share some responsibility for that, especially in these troubled economic times.”

---

Dr. Rastogi disclosed having a commercial relationship with Olympus America. Dr. Rex reported relevant financial or other commercial relationships with American BioOptics, Avantis Medical Systems, Braintree Laboratories Inc., Check-Cap, Epigenomics AG, Given Imaging, Olympus America and Softscope Medical Technologies. Dr. Wallace reported relationships with Boston Scientific, Cook Medical, Fujinon, Mauna Kea Technologies and Olympus America.

2nd International Scanner Contest (ISC) – Register Now

 

P. Hufnagl¹, T. Schrader^{1, 2}, M.G. Rojo³, A. Laurinavicius⁴, G. Kayser⁵, Y. Yagi⁶

¹Institute for Pathology, Charité – Universitätsmedizin Berlin, Germany, ²University of Applied Sciences Brandenburg, Brandenburg, Germany, ³Servicio de Anatomia Patologica, Hospital General de Ciudad Real. ⁴National Centre of Pathology, Vilnius, Lithuania, ⁵Institute of Pathology, University of Freiburg, Freiburg, Germany, ⁶Massachusetts General Hospital, Boston, United States

All manufacturers of slide scanners are invited to participate in the Second International Scanner Contest (ISC) in Berlin, under the auspices of the European Society of Pathology, German Society of Pathology, and the Berufsverband Deutscher Pathologen e.V. (German Professional Organization of Pathologists).

The 1^st ESC was a great success for manufacturers as well as for pathologists and other users. The results have influenced the ongoing development of scanners and the understanding of image quality and evaluation procedures. This contest helps to identify and clarify the specific requirements of image acquisition and digitalization in diagnostic pathology and initiates innovative discussions between developers, vendors and users.

Formerly established and recently re-evaluated criteria will increase the value of the contest, which may support customers to find the appropriate scanner for their specific tasks. Furthermore, the 2^nd ISC will serve the manufacturers as a benchmark.

Schedule & Locations

 The contest consists of two phases as listed below.

 

Phase 1: Event of 2nd ISC in Berlin 

• Venue: Berlin Congress Center
• Schedule is linked to the 12th Annual Meeting of the Berufsverband Deutscher Pathologen e.V. (German Professional Organization of Pathologists) and the 96^th Annual Meeting of the German Society of Pathology, May 31^st – June 3^rd, 2012

◦      May 29^th -30^th, 2012: Scanning of slides in different disciplines (see below)

◦      May 31^st – June 3^rd, 2012: Evaluation of the virtual slides by pathologists attending the 12th        meeting, preliminary evaluation and presentation of first results during a dedicated session.

• Comment: Scanning takes place under supervision of referees. The contest room will be open to a restricted number of staff from each participating company between 8 a.m. and 6 p.m. only. Catering for the participants will be provided.

Phase 2: Presentation of results, award ceremony 

Report from 2^nd ISC 

• Venue: Scuola Grande di San Giovanni Evangelista, in Venice, Italy
• Schedule is linked to the 11th European Congress on Telepathology and 5th International Congress on Virtual Microscopy, on June 6^th to 9^th 2012

 

Results & Award Ceremony 

• Venue: Prague Congress Centre, Prague, Czech Republic
• Schedule is linked to the 24th European Congress of Pathology, on Sept. 8^th to13^th, 2012

 

Contest Areas

 

The following table gives an overview of the planned domains of the 2^nd International Scanner Contest:

No	Domain	Description	# slides	Criteria
1	High throughput	A: 20x	35 (H&E)	Speed, focus, particles
		B: 40x	35 (H&E)	Speed, focus, particles
2	Quality	A: 20x	10	Focus, manual quality assessment
		B: 40x	10	Focus, manual quality assessment
3	Image analysis and Quantification	Image analysis, quantification	3 TMA	Focus, quality, quantitative data
4	Fluorescence	A: 20x	3	Focus, qualitative data
		B: 40x	3	Focus, qualitative data
5	Technical	Mesh grids, color calibration slide	3	Geometry, scanning area, color fastness, acoustic camera
		Sound check
		Power consumption

 

General rules

Each company is invited to participate in any of the offered contests with one or more scanners. The organizing committee provides all glass slides. Independent referees who will be responsible for the handling of the slide series and the time measurements supervise the contest room.  The participating companies may participate at the contest with several different scanners. These scanners may be identical or of different types. The results will be analyzed and displayed separately if different scanners are used.  The participants are allowed to review and comment the evaluated results.

 

Evaluation of the results

The organizing scientists will supervise the evaluation process. Beside the evaluation criteria further parameters will be documented such as:

• Scanning time for the test sets of High quality, Fluorescence
• File size of resulting images
• Number of scans failed/ broken slides/ software crashes
• Additional technical parameters and capabilities

For the evaluation and presentation of results see http://scanner-contest.charite.de.

All involved parties are welcome to propose additional evaluation procedures.

 

Participants

Currently we have received completed registrations from seven vendors with nine devices overall. Two further vendors have announced their participation. Participants originate from Asia, Europe and North America. The ISC proves to be the global forum for Slide Scanner evaluation and benchmarking.

Registration for the 2012 contest is still open! 

Interested Slide Scanning vendors are invited to participate with their devices in the contest to evaluate and proof their individual strengths. Please register via online registration form: http://scanner-contest.charite.de/en/news/online_registration/

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Webinar from Visiopharm – December 13, 9 AM EST: Changing anatomic pathology from a descriptive to a quantitative discipline: now or never?

Changing anatomic pathology from a descriptive to a quantitative discipline: now or never?  SPOTS LIMITED!     Space is limited. Reserve your Webinar seat now at: https://www1.gotomeeting.com/register/506449257     By Robert W. Dunstan, DVM, MS, DACVP  Distinguished Investigator  Biogen Idec  Whole slide imaging and sophisticated image analysis software have allowed for quantification of progressively complex morphologic changes. What is the potential of this technology? What are its pitfalls? Is it even reasonable to expect that practitioners of anatomic pathology can change to be more quantitative in their assessments? More importantly, what happens to anatomic pathology if the discipline does not embrace the potential of this emerging technology? This seminar will discuss where we are with image analysis, where we are going and what is required to make image analysis a routine aspect of morphologic assessment.   6:00 AM San Francisco, 9:00 AM New York, 2:00 PM London, 3:00 PM Paris, 3:00 PM Copenhagen, 10:00 PM Tokyo, 12:00 AM Melbourne. After registering you will receive a confirmation email containing information about joining the webinar   System Requirements PC-based attendees Required: Windows® 7, Vista, XP or 2003 Server Macintosh®-based attendees Required: Mac OS® X 10.5 or newer