Dr. Ming-Ling Chang and Dr. Chung-Guei Huang talk about their experience using PIVKA-II, and their expectations for digital algorithms in HCC surveillance
Interview transcript:
MLC: Ming-Ling Chang
CGH: Chung-Guei Huang
Introduction
MLC: Hi, everyone, I am Dr. Ming-Ling Chang. Currently, I am the Director of the Department of Hepatology and the Gastroenterology of the Chang Gung Memorial Hospital at the Lin-Kou.
CGH: Hello everyone, I am Dr. Chung-Guei Huang. Currently, I am the Director of Department of Medical Laboratory at Lin-Kou Chang Gung Memorial Hospital.
MLC: Chang Gung Memorial Hospital is the biggest chain hospital in
Taiwan with 10 branches and more than 11,000 beds. Chang Gung Memorial Hospital at Lin-Kou is the headquarter among this healthcare system.
CGH: Our laboratory has been CAP accredited since 2003, which means every report from our laboratory meet international standards requirements; we’ve been maintaining CAP accreditation for over 20 years. Beyond CAP accreditation, we also got National Golden Quality Award several times in the past 10 years. Over 1 million tests were reported from our laboratory every month.
What are the challenges in HCC surveillance & diagnosis and testing capacity in your institution?
MLC: In Chang Gung Memorial Hospital, for patients with liver disease, we usually recommend patients with hepatitis to visit our outpatient departments every six months; while those with cirrhosis might have to come every three months. We also conduct liver cancer surveillance by using ultrasound and the alpha fetoprotein, which is AFP. However, not all patients with liver cancer can be diagnosed early despite these measures. The main reason is that the detection rate of tumor by ultrasound is affected by factors such as tumor size, the presence of fatty liver and the liver fibrosis. Moreover, the traditional serum tumor marker AFP only rises in the serum of less than half of the patients with early liver cancer, and can be affected by hepatitis flare leading to false positive results. So, patients with early-stage liver cancer can’t receive timely treatment, and this crucially affects their survival.
CGH: Because of the robust national health insurance system, there are lots of medical behaviors such as blood testing. And the increasing testing loads prompting laboratories to integrate and optimized workflows continuously. Our team had been putting many efforts on streamlining processes for over one decade, making our lab smarter and more efficient, including the application of Artificial Intelligence, business intelligence system, HIMSS 7 close loop system, which helps us successfully release additional testing capacity.
What are the important factors for your lab to consider when selecting a tumor marker?
CGH: As a certificated laboratory, a well-validated assay with official registration approval like CE or FDA is definitely our first priority.
Please share your experience implementing PIVKA-II.
MLC: Currently, in Taiwan, under the National Health Insurance, patients with liver cirrhosis and hepatocellular carcinoma, which is HCC, are entitled to undergo PIVKA-II testing twice a year. This can be complemented with ultrasound and AFP testing. Given the complementary roles of PIVKA-II and AFP in HCC surveillance, their combined use enhances the sensitivity of HCC surveillance, especially for the detection of early-stage HCC. Within hospitals, there have been numerous cases of liver cancer without elevations in AFP levels that were identified through PIVKA-II testing. These patients may exhibit either significant or insignificant ultrasound findings, providing clinicians with greater confidence to proceed with further computer tomography, which is CT, or magnetic resonance imaging, which is MRI, to confirm the diagnosis of liver cancer.
What are your expectations for digital algorithms for HCC surveillance and how is your experience with the new HCC digital algorithm so far?
CGMH is evaluating a new HCC digital algorithm in a clinical study.
MLC: To assess the severity of liver disease, we commonly rely on some algorithms or scores such as fibrosis-4, which is FIB-4, or Child-Pugh score for clinical or decision making. So, there is considerable anticipation for scores like GAAD, which integrates high-risk factors for liver cancer including G for gender, A for age, A for AFP, and the D for DCP, which is PIVKA-II. This integration is expected to serve as an early liver cancer surveillance tool, enhancing efficacy of surveillance, facilitating treatment improvement, and improving patient survival rates. We are still on the road to accumulate the research data on GAAD. If the performance meets expectations, surely, we would like to enroll all patients with high risk for HCC to undergo regular surveillance with GAAD.
CGH: The implementation and calculation framework of GAAD is a brand new trying for laboratories. However, with the rapid development of digitization, AI, and personalized medicine, laboratories are not only dealing with specimens and instruments but also digital algorithms. Facing the trends, laboratories have also strengthened efforts in digital medical talent and ensuring information security.
What advice would you give to other healthcare institutions or professionals looking to improve their HCC management?
MLC: To enhance screening efficacies for early liver cancer in Taiwan, which is a viral hepatitis endemic country, in addition to reinforcing public awareness of liver disease and encouraging regular surveillance among high-risk groups, the surveillance tools should be enhanced. It is important to follow health insurance coverage guidelines when incorporating PIVKA-II. Hopefully, in the future, digital algorithms like GAAD can be applied to further enhance early liver cancer detection rates.
CGH: The values of the testing data offers clinicians as evidence on clinical decisions. In recent years, we focused on the collaboration and communication with clinicians, which contributed to get a better understanding of their perspectives. This allowed us to integrate resources into what clinicians really need and enhancing the value of testing.
What is CGMH’s vision for liver disease and HCC management for the future?
MLC: Hopefully, through collaborative efforts across different units within the healthcare system, the caring for liver diseases, including hepatitis cirrhosis, and HCC, could be enhanced through effective screening, diagnosis, and treatment. In the future, the patients’ quality of life and the survival rates could be improved ultimately.
CGH: Delivering fast and accurate reports is a fundamental requirement for any laboratory. Additionally, we are actively introducing cutting-edge technologies to provide more valuable insights, thereby enhancing early diagnosis rates and patient survival rates.
The views and opinions expressed by Dr. Ming-Ling Chang and Dr. Chung-Guei Huang are their own views and opinions. Roche disclaims all liability in relation to these views and opinions.