Opinion Review
Copyright ©The Author(s) 2019.
World J Gastroenterol. Aug 7, 2019; 25(29): 3849-3856
Published online Aug 7, 2019. doi: 10.3748/wjg.v25.i29.3849
Table 1 Interventions targeting hepatitis C treatment, cirrhosis care and readmissions, and liver transplant recipients
StudyPopulationModalityFindings
Interventions targeting hepatitis C treatment
Arora et al[40], 2011Patients with hepatitis C in rural areas and prisons in New Mexico (n = 261), compared to in-person visits at a University clinic (n = 146)Videoconferences at ECHO site between community physicians and specialists, compared to in person visits at a University clinicComparable rates of SVR were seen between ECHO model and those seen in person at the University HCV clinic (58.2% vs 57.5%, P = 0.89)
Marciano et al[14], 2017Providers treating hepatitis C in the Patagonia Region in South America (n = 14)Videoconferences at ECHO sites between community physicians and those at a University Hospital in ArgentinaSurvey data focused on skills and competence in hepatitis C before and after 6 months of participating in the project, ultimately showing significant improvement in provider confidence regarding their ability to stage fibrosis, determine appropriate candidates for treatment, and select appropriate HCV treatment
Rossaro et al[17], 2008Patients with hepatitis C in rural California (n = 103)Videoconference between patients and specialists23% of patients were candidates for therapy, 15 patients were evaluated for liver transplant
Talal et al[19], 2018Patients with hepatitis C undergoing an opioid substitution therapy program (n = 62)Biweekly telemedicine sessions between the patient and a specialty provider during the treatment courseOf 45 treated patients, 42 (93.3%) achieved SVR
Cooper et al[18], 2017Patients with hepatitis C in Canada receiving care from the Ottawa Hospital Viral Hepatitis Outpatient Clinic, comparing telemedicine (n = 157) and non-telemedicine (n = 1130)Videoconference between patients and specialistsSignificantly fewer telemedicine patients initiated antiviral therapy compared to non-telemedicine patients (27.4% vs 53.8%, P < 0.001). Among those treated with DAA they noted similar SVR rates (94.7% vs 94.8%, P = 0.99)
Interventions targeting cirrhosis care and readmissions
Su et al[15], 2018Patients with liver disease in the Veterans Health Administration (VA) system receiving ECHO visits (n = 513) compared to all patients in the VHA with liver disease (n = 62237)Virtual Consultations (through the VA SCAN-ECHO Project) compared to usual carePropensity-adjusted mortality rates showed improved survival in the SCAN-ECHO cohort (HR of 0.54, 95%CI 0.36-0.81)
Khungar et al[24], 2017Patients with cirrhosis received 4G tablets with wireless devices to monitor blood pressure, heart rate, weight, symptoms, and medication administration. Telehealth nurses in conjunction with primary hepatology team intervened to prevent readmissions. (n = 19 intervention, 143 control)Remote monitoring with telehealth based early interventionThe remote monitoring/ telehealth arm had 0% of readmissions due to potentially preventable causes (fluid overload or hepatic encephalopathy) due to early outpatient interventions whereas 31% of readmissions were due to these causes in the control arm
Konjeti et al[16], 2019Potential Liver Transplant Candidates in the VA system (n = 19091 through SCAN-ECHO and 99 seen in-person)Virtual Consultations (through the VA SCAN-ECHO Project) compared to in-person visitsThe telehealth-based triage reduced futile transplant evaluations by approximately 60%
Ganapathy et al[23], 2017Cirrhotic patients with caregivers after hospital discharge (n = 40)Home monitoring using an iPad with the Patient Buddy App (monitoring medication adherence, sodium intake and weights, and cognition)17 of 40 patients were readmitted within 30 d. 8 potential readmissions related to hepatic encephalopathy were prevented via early outpatient interventions
Interventions targeting liver transplant recipients
Ertel et al[20], 2016Post Liver Transplantation Patients (n = 20)Telehealth home monitoring (vital sign tracking) and an educational video program19 of the 20 patients responded to a survey, with 95% watching all videos and 100% finding them effective. 90-d readmission rate of 30% (42% lower than historical controls)
Song et al[21], 2013Pediatric Post Liver Transplant Patients, International (n = 4)Home monitoring and decision support using a tablet PC and a specially developed softwareFour international patients/families transferred 38 records of blood tests, demonstrating that this software is technically feasible
Le et al[37], 2018Post Liver Transplant PatientsTelevisits (n = 21) versus in clinic visits (n = 21)Similar patient satisfaction. Less commute and waiting times in the televisit group