CAP TODAY Pathology/Laboratory Medicine/Laboratory Management
Anne Ford
September 2017—Like an old friend with a new facelift, or a high-mileage car with a thorough tune-up, the 2017 edition of the CAP transfusion medicine checklist has undergone a significant number of small changes—none of which is startling in itself, but all of which combine to produce a fresh and streamlined effect. More than 90 of the checklist’s requirements have been revised, many in the name of alignment with FDA requirements.
“A lot of this work consisted of reorganizing, clarifying, tightening, editing,” says Checklists Committee member Katharine Appleton Downes, MD, who is director of coagulation laboratories and medical director of transfusion medicine/blood bank, University Hospitals Cleveland Medical Center, and associate professor of pathology, Case Western Reserve University School of Medicine.
That’s because, says Yara Park, MD, “we had not done a thorough review of the checklist in over five years. This year we took on reviewing the entirety of the list. There are so many changes this year, not because of any big change in the world, but because we felt like we needed to do a very thorough investigation and look at every single checklist item.” Dr. Park, chair of the CAP Transfusion Medicine Resource Committee, is associate professor in the Department of Pathology and Laboratory Medicine and director of transfusion medicine services and hematopoietic progenitor stem cell laboratories, University of North Carolina School of Medicine.
Dr. Park
That said, there is at least one new requirement, TRM.42060, which compels transfusion services to track the incidence of transfusion reactions and monitor the rate of transfusion reactions by each diagnostic reaction—febrile, hemolytic, TRALI, and so forth. Drs. Park and Downes perceive the potential effect of this new requirement slightly differently.
“Most laboratories have been doing this and reporting it to their institutional transfusion committees, but it wasn’t in the checklist that you had to record it this way,” Dr. Park says. “So we decided to add what people are actually doing, and to make the checklist compliant with the FDA.”
Dr. Downes suspects it may be a new practice for some laboratories. “I think places may have monitored their transfusion reactions, but perhaps not in a way that included the incidence of the reactions, as well as really looking at the diagnostic reaction type. I think it may be a change for some laboratories to start thinking about transfusion reactions in this manner.”
As for the existing TRM.32250 requirement for record retention, “There is a change, but it isn’t very sexy,” Dr. Park says. “But it’s probably good for laboratories.” She’s referring to the added requirement that competency records be kept for five years and that temperature monitoring graphs and logs of all refrigerated equipment and platelet incubators be kept for 10 years. The change, she says, was made to align the CAP’s requirements with those of the American Association of Blood Banks. “Sometimes we don’t always match up, and we want to make it easier on checklist users. It’s nice when you don’t have to try to figure out which entity you’re going to try to keep up with,” Dr. Park says.
A change to TRM.42285, which is now titled “Therapeutic Phlebotomy Units for Transfusion,” relieves laboratories of the need to obtain a variance from the FDA in order to use blood collected from therapeutic phlebotomies for transfusion.
“As of May 22, 2015, the final rule from the FDA eliminated this requirement. So we’ve deleted it too,” Dr. Park explains. “I feel okay with it because [for laboratories] to use that blood, they [donors] still have to meet all of the qualifications for being an allogeneic blood donor. Patients who have to have phlebotomies for a therapeutic reason, usually hereditary hemochromatosis, are often upset when we throw their blood away, and we did have to throw their blood away, if you didn’t have this variance. Patients know there’s a big need for blood out there, and they want to help. Doing this allows their blood to be used because there’s nothing unsafe about it.” Some patients who have therapeutic phlebotomies wouldn’t meet the criteria for allogeneic donations, she adds, and those patients’ units would still be discarded.
Previously titled simply “Expiration Dates,” TRM.42480 now bears the more exacting name “Blood Components Storage Requirements and Expiration Dates.” But that’s not this checklist requirement’s biggest change. Whereas the previous version of it specified exactly how blood products were to be stored, the current version now states only: “The expiration dates and storage requirements of all blood components comply with the most recent edition of the Circular of Information and the manufacturer’s recommendations. For laboratories not subject to US regulations, expiration dates conform to national and local laws and regulations for all approved component storage systems in use.”
“This was done to streamline the checklist,” Dr. Downes explains. “Laboratories are referred to the Circular of Information, which will have the most up-to-date and the most comprehensive information.” The change will require laboratories to have the most recent copy of the circular on hand—a useful thing during inspections, should the inspector start asking questions such as, “How are you storing your products? What is this based on? Oh, on the circular? Well, where is the circular?”
Skin preparation for blood donors is the subject of the slightly revised TRM.45267. “We added that they have to use an FDA-approved method for skin disinfection prior to phlebotomy,” Dr. Park says. “Before it said, ‘A written procedure requiring the use of sterile prepackaged material is followed,’ but we’ve now made the point that it should be FDA approved. Although there’s lots of ways of doing it, because we’re manufacturing a product from this we should be following the FDA guidelines on what is approved for skin disinfection prior to a phlebotomy for blood donation, because if the skin is not completely cleaned you increase the risk for bacterial contamination of that product.”
More specifics have been added to TRM.41300, the name of which has been changed from “Bedside Identification” to “Donor and Recipient Information Verification.”
“Previously, it was more limited in terms of what was included,” Dr. Downes says. Rather than stating, as it did before, “The recipient is always identified conclusively with two patient identifiers by either two persons (e.g. by checking the wristband for name and hospital number), or using bedside patient identification technology,” the requirement now says donor and recipient information is verified immediately before transfusion in the presence of the recipient and includes several identifiers, such as intended recipient’s blood type, donor unit identification number and donor blood type, and others.
Along similar lines, TRM.41350, “Compatibility Label/Tag,” now stipulates that before issuance, a label or tag including the following information is securely attached to each blood or component unit and remains attached until the transfusion is complete: identification of the recipient with two patient identifiers, a blood or blood component unit identifier, recipient and donor blood types, interpretation of crossmatch tests (where applicable), donor unit expiration date and time (as applicable), and special transfusion requirements (if warranted).
TRM.40670, now titled “ABO Group and Rh(D) Type Verification,” has also been clarified. Not only has “Group and Rh(D) Type” been added to the name, but the requirement’s note now says that for laboratories that employ computer crossmatching, serologic crossmatch techniques must be used when ABO typing discrepancies are present (such as mixed field reactivity, missing serum reactivity, or apparent change in blood type post-hematopoietic stem cell transplant). “This was added for patient safety,” Dr. Downes says.
For allogeneic blood donations, TRM.45256 now contains an updated minimum age requirement, one that now aligns with FDA guidelines, which stipulate that in the United States, these donors must be at least 16 years old or of an age that conforms to applicable state laws. “It’s nice that we can do this, because most 16-year-olds are adult size and can safely donate as long as they meet all the requirements,” says Dr. Park. “By using younger donors, it opens up the donor pool, obviously, and we try to get donors in the habit of donating younger, so we can make more lifelong donors.”