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A new system for remotely assessing and transmitting selected vitals and self-reported measures reduces symptom severity among patients with head and neck cancer receiving radiation therapy, in a randomized trial reported at a press briefing held before the annual meeting of the American Society of Clinical Oncology.

“Head and neck cancer patients who receive radiation treatment have a high symptom burden and also are at increased risk for dehydration during treatment,” said lead study author Susan K. Peterson, PhD, a professor in the department of behavioral science at the University of Texas MD Anderson Cancer Center, Houston. “Previously, we have shown that it was feasible to use mobile and sensor technology to identify treatment-related symptoms and early dehydration risk in patients receiving radiation treatment as part of their outpatient care.”

In the new trial, the investigators tested the CYCORE system (Cyberinfrastructure for Comparative Effectiveness Research), which consists of a Bluetooth-enabled weight scale and blood pressure cuff, and a mobile tablet with a symptom-tracking app that sends information directly to the physician each weekday. A network hub/router was set up in patients’ homes to transmit their sensor readouts, and the mobile app transmitted their symptom data to secure firewall-protected computers. “CYCORE also included a software infrastructure that enabled the analysis and viewing of data in near-real time and was compliant with safety and security and confidentiality standards,” Dr. Peterson noted.

Main trial results showed that compared with peers receiving only usual care (weekly visits with the radiation oncologist), patients receiving usual care augmented with the CYCORE system had lower mean scores on a 10-point scale for general symptoms (0.5-point difference) and for symptoms specific to head and neck cancer (0.6-point difference). In addition, daily remote tracking of patient well-being allowed clinicians to more rapidly detect and respond to symptoms.

“This is important because symptoms can affects patients’ ability to tolerate treatment and can also impact their quality of life during treatment,” Dr. Peterson said.

The mean age of the patients was 60 years; the oldest was 86 years old. “This supports the notion that the use of technology-based interventions can be feasible in older patients,” she maintained. In addition, patients in the CYCORE group showed at least 80% adherence to the daily monitoring tasks.

“We believe that good patient adherence plus the fact that this imposed minimal burden on clinicians for the monitoring supports the use of systems like CYCORE during intensive treatment periods in cancer care, and that using sensor and mobile technology to monitor patients during critical periods of outpatient care can provide a timely source of information for clinical decision making and may ultimately improve quality of life and health outcomes,” Dr. Peterson concluded. “Our next steps would be to explore ways to implement this as part of clinical care, including in community cancer centers, where most patients receive their care.”

 

 


“This is yet another application of technology-enabled sharing of information generated at home,” said ASCO President Bruce E. Johnson, MD, FASCO, noting that a similar study last year showed better patient-reported experience and overall survival.

Such technology will likely be increasingly used to obtain timely information that ultimately leads to a reduction in complications, he speculated.

“This information in head and neck cancer is particularly important because patients commonly get a lot of side effects when attempting to swallow enough fluids, such that some centers end up putting a feeding tube into the stomach because it’s so difficult to swallow,” added Dr. Johnson, who is also a professor of medicine at the Dana-Farber Cancer Institute and a leader of the Dana-Farber/Harvard Cancer Center Lung Cancer Program, Boston. “So this is a particularly important clinical application in cancer.”

Study details

The trial population consisted of 357 patients undergoing radiation therapy for head and neck cancer. “We believe that this is the first and largest study of its kind in head and neck cancer,” Dr. Peterson said.

 

 


The severity of symptoms and their interference with daily activities were assessed at serial time points with the MD Anderson Symptom Inventory.

In the CYCORE group, 87% of patients measured their blood pressure daily, 86% measured their weight daily, and 80% used the symptom-tracking app daily.

At the end of radiation therapy, the CYCORE patients had lower (i.e., better) mean scores for general symptoms (e.g., pain, nausea, fatigue) relative to usual care counterparts (2.9 vs. 3.4), with a difference still evident 6-8 weeks later (1.6 vs. 1.9) (P = .007).

In addition, the CYCORE patients had lower mean scores for symptoms specific to head and neck cancer (e.g., dysphagia, pain, rash) at the end of radiation therapy (4.2 vs. 4.8), with a difference still evident 6-8 weeks later (1.7 vs. 2.1) (P = .009).

 

 


The groups fared essentially the same with respect to scores assessing interference of symptoms with activities of daily living.

Dr. Peterson disclosed that she had no relevant conflicts of interest. The study received funding from the National Institutes of Health.

SOURCE: Peterson et al. ASCO 2018, Abstract 6063.

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A new system for remotely assessing and transmitting selected vitals and self-reported measures reduces symptom severity among patients with head and neck cancer receiving radiation therapy, in a randomized trial reported at a press briefing held before the annual meeting of the American Society of Clinical Oncology.

“Head and neck cancer patients who receive radiation treatment have a high symptom burden and also are at increased risk for dehydration during treatment,” said lead study author Susan K. Peterson, PhD, a professor in the department of behavioral science at the University of Texas MD Anderson Cancer Center, Houston. “Previously, we have shown that it was feasible to use mobile and sensor technology to identify treatment-related symptoms and early dehydration risk in patients receiving radiation treatment as part of their outpatient care.”

In the new trial, the investigators tested the CYCORE system (Cyberinfrastructure for Comparative Effectiveness Research), which consists of a Bluetooth-enabled weight scale and blood pressure cuff, and a mobile tablet with a symptom-tracking app that sends information directly to the physician each weekday. A network hub/router was set up in patients’ homes to transmit their sensor readouts, and the mobile app transmitted their symptom data to secure firewall-protected computers. “CYCORE also included a software infrastructure that enabled the analysis and viewing of data in near-real time and was compliant with safety and security and confidentiality standards,” Dr. Peterson noted.

Main trial results showed that compared with peers receiving only usual care (weekly visits with the radiation oncologist), patients receiving usual care augmented with the CYCORE system had lower mean scores on a 10-point scale for general symptoms (0.5-point difference) and for symptoms specific to head and neck cancer (0.6-point difference). In addition, daily remote tracking of patient well-being allowed clinicians to more rapidly detect and respond to symptoms.

“This is important because symptoms can affects patients’ ability to tolerate treatment and can also impact their quality of life during treatment,” Dr. Peterson said.

The mean age of the patients was 60 years; the oldest was 86 years old. “This supports the notion that the use of technology-based interventions can be feasible in older patients,” she maintained. In addition, patients in the CYCORE group showed at least 80% adherence to the daily monitoring tasks.

“We believe that good patient adherence plus the fact that this imposed minimal burden on clinicians for the monitoring supports the use of systems like CYCORE during intensive treatment periods in cancer care, and that using sensor and mobile technology to monitor patients during critical periods of outpatient care can provide a timely source of information for clinical decision making and may ultimately improve quality of life and health outcomes,” Dr. Peterson concluded. “Our next steps would be to explore ways to implement this as part of clinical care, including in community cancer centers, where most patients receive their care.”

 

 


“This is yet another application of technology-enabled sharing of information generated at home,” said ASCO President Bruce E. Johnson, MD, FASCO, noting that a similar study last year showed better patient-reported experience and overall survival.

Such technology will likely be increasingly used to obtain timely information that ultimately leads to a reduction in complications, he speculated.

“This information in head and neck cancer is particularly important because patients commonly get a lot of side effects when attempting to swallow enough fluids, such that some centers end up putting a feeding tube into the stomach because it’s so difficult to swallow,” added Dr. Johnson, who is also a professor of medicine at the Dana-Farber Cancer Institute and a leader of the Dana-Farber/Harvard Cancer Center Lung Cancer Program, Boston. “So this is a particularly important clinical application in cancer.”

Study details

The trial population consisted of 357 patients undergoing radiation therapy for head and neck cancer. “We believe that this is the first and largest study of its kind in head and neck cancer,” Dr. Peterson said.

 

 


The severity of symptoms and their interference with daily activities were assessed at serial time points with the MD Anderson Symptom Inventory.

In the CYCORE group, 87% of patients measured their blood pressure daily, 86% measured their weight daily, and 80% used the symptom-tracking app daily.

At the end of radiation therapy, the CYCORE patients had lower (i.e., better) mean scores for general symptoms (e.g., pain, nausea, fatigue) relative to usual care counterparts (2.9 vs. 3.4), with a difference still evident 6-8 weeks later (1.6 vs. 1.9) (P = .007).

In addition, the CYCORE patients had lower mean scores for symptoms specific to head and neck cancer (e.g., dysphagia, pain, rash) at the end of radiation therapy (4.2 vs. 4.8), with a difference still evident 6-8 weeks later (1.7 vs. 2.1) (P = .009).

 

 


The groups fared essentially the same with respect to scores assessing interference of symptoms with activities of daily living.

Dr. Peterson disclosed that she had no relevant conflicts of interest. The study received funding from the National Institutes of Health.

SOURCE: Peterson et al. ASCO 2018, Abstract 6063.

 

A new system for remotely assessing and transmitting selected vitals and self-reported measures reduces symptom severity among patients with head and neck cancer receiving radiation therapy, in a randomized trial reported at a press briefing held before the annual meeting of the American Society of Clinical Oncology.

“Head and neck cancer patients who receive radiation treatment have a high symptom burden and also are at increased risk for dehydration during treatment,” said lead study author Susan K. Peterson, PhD, a professor in the department of behavioral science at the University of Texas MD Anderson Cancer Center, Houston. “Previously, we have shown that it was feasible to use mobile and sensor technology to identify treatment-related symptoms and early dehydration risk in patients receiving radiation treatment as part of their outpatient care.”

In the new trial, the investigators tested the CYCORE system (Cyberinfrastructure for Comparative Effectiveness Research), which consists of a Bluetooth-enabled weight scale and blood pressure cuff, and a mobile tablet with a symptom-tracking app that sends information directly to the physician each weekday. A network hub/router was set up in patients’ homes to transmit their sensor readouts, and the mobile app transmitted their symptom data to secure firewall-protected computers. “CYCORE also included a software infrastructure that enabled the analysis and viewing of data in near-real time and was compliant with safety and security and confidentiality standards,” Dr. Peterson noted.

Main trial results showed that compared with peers receiving only usual care (weekly visits with the radiation oncologist), patients receiving usual care augmented with the CYCORE system had lower mean scores on a 10-point scale for general symptoms (0.5-point difference) and for symptoms specific to head and neck cancer (0.6-point difference). In addition, daily remote tracking of patient well-being allowed clinicians to more rapidly detect and respond to symptoms.

“This is important because symptoms can affects patients’ ability to tolerate treatment and can also impact their quality of life during treatment,” Dr. Peterson said.

The mean age of the patients was 60 years; the oldest was 86 years old. “This supports the notion that the use of technology-based interventions can be feasible in older patients,” she maintained. In addition, patients in the CYCORE group showed at least 80% adherence to the daily monitoring tasks.

“We believe that good patient adherence plus the fact that this imposed minimal burden on clinicians for the monitoring supports the use of systems like CYCORE during intensive treatment periods in cancer care, and that using sensor and mobile technology to monitor patients during critical periods of outpatient care can provide a timely source of information for clinical decision making and may ultimately improve quality of life and health outcomes,” Dr. Peterson concluded. “Our next steps would be to explore ways to implement this as part of clinical care, including in community cancer centers, where most patients receive their care.”

 

 


“This is yet another application of technology-enabled sharing of information generated at home,” said ASCO President Bruce E. Johnson, MD, FASCO, noting that a similar study last year showed better patient-reported experience and overall survival.

Such technology will likely be increasingly used to obtain timely information that ultimately leads to a reduction in complications, he speculated.

“This information in head and neck cancer is particularly important because patients commonly get a lot of side effects when attempting to swallow enough fluids, such that some centers end up putting a feeding tube into the stomach because it’s so difficult to swallow,” added Dr. Johnson, who is also a professor of medicine at the Dana-Farber Cancer Institute and a leader of the Dana-Farber/Harvard Cancer Center Lung Cancer Program, Boston. “So this is a particularly important clinical application in cancer.”

Study details

The trial population consisted of 357 patients undergoing radiation therapy for head and neck cancer. “We believe that this is the first and largest study of its kind in head and neck cancer,” Dr. Peterson said.

 

 


The severity of symptoms and their interference with daily activities were assessed at serial time points with the MD Anderson Symptom Inventory.

In the CYCORE group, 87% of patients measured their blood pressure daily, 86% measured their weight daily, and 80% used the symptom-tracking app daily.

At the end of radiation therapy, the CYCORE patients had lower (i.e., better) mean scores for general symptoms (e.g., pain, nausea, fatigue) relative to usual care counterparts (2.9 vs. 3.4), with a difference still evident 6-8 weeks later (1.6 vs. 1.9) (P = .007).

In addition, the CYCORE patients had lower mean scores for symptoms specific to head and neck cancer (e.g., dysphagia, pain, rash) at the end of radiation therapy (4.2 vs. 4.8), with a difference still evident 6-8 weeks later (1.7 vs. 2.1) (P = .009).

 

 


The groups fared essentially the same with respect to scores assessing interference of symptoms with activities of daily living.

Dr. Peterson disclosed that she had no relevant conflicts of interest. The study received funding from the National Institutes of Health.

SOURCE: Peterson et al. ASCO 2018, Abstract 6063.

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Key clinical point: The CYCORE remote monitoring system reduces symptoms in head and neck cancer, likely by allowing proactive symptom management.

Major finding: Compared with usual care, the system for tracking and transmitting vitals and self-reported measures through sensor and mobile devices was associated with milder general symptoms (0.5-point difference) and head and neck cancer symptoms (0.6-point difference).

Study details: A randomized controlled trial among 357 patients with head and neck cancer undergoing radiation therapy.

Disclosures: Dr. Peterson disclosed that she had no conflicts of interest. The study received funding from the National Institutes of Health.

Source: Peterson et al. ASCO 2018, Abstract 6063.

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