Prevention of adverse drug reactions in hospitalized older patients with multi-morbidity and polypharmacy: The SENATOR∗ randomized controlled clinical trial

Denis O'Mahony; Adalsteinn Gudmundsson; Roy L. Soiza; Mirko Petrovic; Alfonso Jose Cruz-Jentoft; Antonio Cherubini; Richard Fordham; Stephen Byrne; Darren Dahly; Paul Gallagher; Amanda Lavan; Denis Curtin; Kieran Dalton; Shane Cullinan; Evelyn Flanagan; Frances Shiely; Olafur Samuelsson; Astros Sverrisdottir; Selvarani Subbarayan; Lore Vandaele; Eline Meireson; Beatriz Montero-Errasquin; Aurora Rexach-Cano; Andrea Correa Perez; Isabel Lozano-Montoya; Manuel Vélez-Díaz-Pallarés; Annarita Cerenzia; Samanta Corradi; Maria Soledad Cotorruelo Ferreiro; Federica Dimitri; Paolo Marinelli; Gaia Martelli; Rebekah Fong Soe Khioe; Joseph Eustace

doi:10.1093/ageing/afaa072

Prevention of adverse drug reactions in hospitalized older patients with multi-morbidity and polypharmacy: The SENATOR^∗ randomized controlled clinical trial

Denis O'Mahony
, Adalsteinn Gudmundsson
, Roy L. Soiza
, Mirko Petrovic
, Alfonso Jose Cruz-Jentoft
, Antonio Cherubini
, Richard Fordham
, Stephen Byrne
, Darren Dahly
, Paul Gallagher
, Amanda Lavan
, Denis Curtin
, Kieran Dalton
, Shane Cullinan
, Evelyn Flanagan
, Frances Shiely
, Olafur Samuelsson
, Astros Sverrisdottir
, Selvarani Subbarayan
, Lore Vandaele

Eline Meireson, Beatriz Montero-Errasquin, Aurora Rexach-Cano, Andrea Correa Perez, Isabel Lozano-Montoya, Manuel Vélez-Díaz-Pallarés, Annarita Cerenzia, Samanta Corradi, Maria Soledad Cotorruelo Ferreiro, Federica Dimitri, Paolo Marinelli, Gaia Martelli, Rebekah Fong Soe Khioe, Joseph Eustace

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Multi-morbidity and polypharmacy increase the risk of non-trivial adverse drug reactions (ADRs) in older people during hospitalization. Despite this, there are no established interventions for hospital-acquired ADR prevention. Methods: We undertook a pragmatic, multi-national, parallel arm prospective randomized open-label, blinded endpoint (PROBE) controlled trial enrolling patients at six European medical centres. We randomized 1,537 older medical and surgical patients with multi-morbidity and polypharmacy on admission in a 1:1 ratio to SENATOR software-guided medication optimization plus standard care (intervention, n = 772, mean number of daily medications = 9.34) or standard care alone (control, n = 765, mean number of daily medications = 9.23) using block randomization stratified by site and admission type. Attending clinicians in the intervention arm received SENATOR-generated advice at a single time point with recommendations they could choose to adopt or not. The primary endpoint was occurrence of probable or certain ADRs within 14 days of randomization. Secondary endpoints were primary endpoint derivatives; tertiary endpoints included all-cause mortality, re-hospitalization, composite healthcare utilization and health-related quality of life. Results: For the primary endpoint, there was no difference between the intervention and control groups (24.5 vs. 24.8%; OR 0.98; 95% CI 0.77-1.24; P = 0.88). Similarly, with secondary and tertiary endpoints, there were no significant differences. Among attending clinicians in the intervention group, implementation of SENATOR software-generated medication advice points was poor (∼15%). Conclusions: In this trial, uptake of software-generated medication advice to minimize ADRs was poor and did not reduce ADR incidence during index hospitalization.

Original language	English
Pages (from-to)	605-614
Number of pages	10
Journal	Age and Ageing
Volume	49
Issue number	4
DOIs	https://doi.org/10.1093/ageing/afaa072
Publication status	Published - 1 Jul 2020

Keywords

Adverse drug reactions
Multi-morbidity
Older people
Polypharmacy
Prevention
Software
STOPP/START criteria

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10.1093/ageing/afaa072

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O'Mahony, D., Gudmundsson, A., Soiza, R. L., Petrovic, M., Cruz-Jentoft, A. J., Cherubini, A., Fordham, R., Byrne, S., Dahly, D., Gallagher, P., Lavan, A., Curtin, D., Dalton, K., Cullinan, S., Flanagan, E., Shiely, F., Samuelsson, O., Sverrisdottir, A., Subbarayan, S., ... Eustace, J. (2020). Prevention of adverse drug reactions in hospitalized older patients with multi-morbidity and polypharmacy: The SENATOR^∗ randomized controlled clinical trial. Age and Ageing, 49(4), 605-614. https://doi.org/10.1093/ageing/afaa072

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title = "Prevention of adverse drug reactions in hospitalized older patients with multi-morbidity and polypharmacy: The SENATOR∗ randomized controlled clinical trial",

abstract = "Background: Multi-morbidity and polypharmacy increase the risk of non-trivial adverse drug reactions (ADRs) in older people during hospitalization. Despite this, there are no established interventions for hospital-acquired ADR prevention. Methods: We undertook a pragmatic, multi-national, parallel arm prospective randomized open-label, blinded endpoint (PROBE) controlled trial enrolling patients at six European medical centres. We randomized 1,537 older medical and surgical patients with multi-morbidity and polypharmacy on admission in a 1:1 ratio to SENATOR software-guided medication optimization plus standard care (intervention, n = 772, mean number of daily medications = 9.34) or standard care alone (control, n = 765, mean number of daily medications = 9.23) using block randomization stratified by site and admission type. Attending clinicians in the intervention arm received SENATOR-generated advice at a single time point with recommendations they could choose to adopt or not. The primary endpoint was occurrence of probable or certain ADRs within 14 days of randomization. Secondary endpoints were primary endpoint derivatives; tertiary endpoints included all-cause mortality, re-hospitalization, composite healthcare utilization and health-related quality of life. Results: For the primary endpoint, there was no difference between the intervention and control groups (24.5 vs. 24.8\%; OR 0.98; 95\% CI 0.77-1.24; P = 0.88). Similarly, with secondary and tertiary endpoints, there were no significant differences. Among attending clinicians in the intervention group, implementation of SENATOR software-generated medication advice points was poor (∼15\%). Conclusions: In this trial, uptake of software-generated medication advice to minimize ADRs was poor and did not reduce ADR incidence during index hospitalization.",

keywords = "Adverse drug reactions, Multi-morbidity, Older people, Polypharmacy, Prevention, Software, STOPP/START criteria",

author = "Denis O'Mahony and Adalsteinn Gudmundsson and Soiza, \{Roy L.\} and Mirko Petrovic and Cruz-Jentoft, \{Alfonso Jose\} and Antonio Cherubini and Richard Fordham and Stephen Byrne and Darren Dahly and Paul Gallagher and Amanda Lavan and Denis Curtin and Kieran Dalton and Shane Cullinan and Evelyn Flanagan and Frances Shiely and Olafur Samuelsson and Astros Sverrisdottir and Selvarani Subbarayan and Lore Vandaele and Eline Meireson and Beatriz Montero-Errasquin and Aurora Rexach-Cano and Perez, \{Andrea Correa\} and Isabel Lozano-Montoya and Manuel V{\'e}lez-D{\'i}az-Pallar{\'e}s and Annarita Cerenzia and Samanta Corradi and Ferreiro, \{Maria Soledad Cotorruelo\} and Federica Dimitri and Paolo Marinelli and Gaia Martelli and Khioe, \{Rebekah Fong Soe\} and Joseph Eustace",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2020. Published by Oxford University Press on behalf of the British Geriatrics Society. All rights reserved. For permissions, please email: [email protected]",

year = "2020",

month = jul,

day = "1",

doi = "10.1093/ageing/afaa072",

language = "English",

volume = "49",

pages = "605--614",

journal = "Age and Ageing",

issn = "0002-0729",

publisher = "Oxford University Press",

number = "4",

}

O'Mahony, D, Gudmundsson, A, Soiza, RL, Petrovic, M, Cruz-Jentoft, AJ, Cherubini, A, Fordham, R, Byrne, S , Dahly, D, Gallagher, P, Lavan, A, Curtin, D, Dalton, K, Cullinan, S, Flanagan, E, Shiely, F, Samuelsson, O, Sverrisdottir, A, Subbarayan, S, Vandaele, L, Meireson, E, Montero-Errasquin, B, Rexach-Cano, A, Perez, AC, Lozano-Montoya, I, Vélez-Díaz-Pallarés, M, Cerenzia, A, Corradi, S, Ferreiro, MSC, Dimitri, F, Marinelli, P, Martelli, G, Khioe, RFS & Eustace, J 2020, 'Prevention of adverse drug reactions in hospitalized older patients with multi-morbidity and polypharmacy: The SENATOR^∗ randomized controlled clinical trial', Age and Ageing, vol. 49, no. 4, pp. 605-614. https://doi.org/10.1093/ageing/afaa072

TY - JOUR

T1 - Prevention of adverse drug reactions in hospitalized older patients with multi-morbidity and polypharmacy

T2 - The SENATOR∗ randomized controlled clinical trial

AU - O'Mahony, Denis

AU - Gudmundsson, Adalsteinn

AU - Soiza, Roy L.

AU - Petrovic, Mirko

AU - Cruz-Jentoft, Alfonso Jose

AU - Cherubini, Antonio

AU - Fordham, Richard

AU - Byrne, Stephen

AU - Dahly, Darren

AU - Gallagher, Paul

AU - Lavan, Amanda

AU - Curtin, Denis

AU - Dalton, Kieran

AU - Cullinan, Shane

AU - Flanagan, Evelyn

AU - Shiely, Frances

AU - Samuelsson, Olafur

AU - Sverrisdottir, Astros

AU - Subbarayan, Selvarani

AU - Vandaele, Lore

AU - Meireson, Eline

AU - Montero-Errasquin, Beatriz

AU - Rexach-Cano, Aurora

AU - Perez, Andrea Correa

AU - Lozano-Montoya, Isabel

AU - Vélez-Díaz-Pallarés, Manuel

AU - Cerenzia, Annarita

AU - Corradi, Samanta

AU - Ferreiro, Maria Soledad Cotorruelo

AU - Dimitri, Federica

AU - Marinelli, Paolo

AU - Martelli, Gaia

AU - Khioe, Rebekah Fong Soe

AU - Eustace, Joseph

PY - 2020/7/1

Y1 - 2020/7/1

N2 - Background: Multi-morbidity and polypharmacy increase the risk of non-trivial adverse drug reactions (ADRs) in older people during hospitalization. Despite this, there are no established interventions for hospital-acquired ADR prevention. Methods: We undertook a pragmatic, multi-national, parallel arm prospective randomized open-label, blinded endpoint (PROBE) controlled trial enrolling patients at six European medical centres. We randomized 1,537 older medical and surgical patients with multi-morbidity and polypharmacy on admission in a 1:1 ratio to SENATOR software-guided medication optimization plus standard care (intervention, n = 772, mean number of daily medications = 9.34) or standard care alone (control, n = 765, mean number of daily medications = 9.23) using block randomization stratified by site and admission type. Attending clinicians in the intervention arm received SENATOR-generated advice at a single time point with recommendations they could choose to adopt or not. The primary endpoint was occurrence of probable or certain ADRs within 14 days of randomization. Secondary endpoints were primary endpoint derivatives; tertiary endpoints included all-cause mortality, re-hospitalization, composite healthcare utilization and health-related quality of life. Results: For the primary endpoint, there was no difference between the intervention and control groups (24.5 vs. 24.8%; OR 0.98; 95% CI 0.77-1.24; P = 0.88). Similarly, with secondary and tertiary endpoints, there were no significant differences. Among attending clinicians in the intervention group, implementation of SENATOR software-generated medication advice points was poor (∼15%). Conclusions: In this trial, uptake of software-generated medication advice to minimize ADRs was poor and did not reduce ADR incidence during index hospitalization.

AB - Background: Multi-morbidity and polypharmacy increase the risk of non-trivial adverse drug reactions (ADRs) in older people during hospitalization. Despite this, there are no established interventions for hospital-acquired ADR prevention. Methods: We undertook a pragmatic, multi-national, parallel arm prospective randomized open-label, blinded endpoint (PROBE) controlled trial enrolling patients at six European medical centres. We randomized 1,537 older medical and surgical patients with multi-morbidity and polypharmacy on admission in a 1:1 ratio to SENATOR software-guided medication optimization plus standard care (intervention, n = 772, mean number of daily medications = 9.34) or standard care alone (control, n = 765, mean number of daily medications = 9.23) using block randomization stratified by site and admission type. Attending clinicians in the intervention arm received SENATOR-generated advice at a single time point with recommendations they could choose to adopt or not. The primary endpoint was occurrence of probable or certain ADRs within 14 days of randomization. Secondary endpoints were primary endpoint derivatives; tertiary endpoints included all-cause mortality, re-hospitalization, composite healthcare utilization and health-related quality of life. Results: For the primary endpoint, there was no difference between the intervention and control groups (24.5 vs. 24.8%; OR 0.98; 95% CI 0.77-1.24; P = 0.88). Similarly, with secondary and tertiary endpoints, there were no significant differences. Among attending clinicians in the intervention group, implementation of SENATOR software-generated medication advice points was poor (∼15%). Conclusions: In this trial, uptake of software-generated medication advice to minimize ADRs was poor and did not reduce ADR incidence during index hospitalization.

KW - Adverse drug reactions

KW - Multi-morbidity

KW - Older people

KW - Polypharmacy

KW - Prevention

KW - Software

KW - STOPP/START criteria

UR - https://www.scopus.com/pages/publications/85087530568

U2 - 10.1093/ageing/afaa072

DO - 10.1093/ageing/afaa072

M3 - Article

C2 - 32484850

AN - SCOPUS:85087530568

SN - 0002-0729

VL - 49

SP - 605

EP - 614

JO - Age and Ageing

JF - Age and Ageing

IS - 4

ER -

Prevention of adverse drug reactions in hospitalized older patients with multi-morbidity and polypharmacy: The SENATOR^∗ randomized controlled clinical trial

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Keywords

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