Research Articles

Heart rate variability predicts 30-day all-cause mortality in intensive care units

David G. Bishop, Robert D. Wise, Carolyn Lee, Richard P. von Rahden, Reitze N. Rodseth
Southern African Journal of Anaesthesia and Analgesia | Vol 22, No 4 | a841 | DOI: https://doi.org/10.1080/22201181.2016.1202605 | © 2016 David G. Bishop, Robert D. Wise, Carolyn Lee, Richard P. von Rahden, Reitze N. Rodseth | This work is licensed under Other
Submitted: 04 November 2025 | Published: 30 August 2016

About the author(s)

David G. Bishop, University of KwaZulu-Natal, South Africa
Robert D. Wise, University of KwaZulu-Natal, South Africa
Carolyn Lee, University of KwaZulu-Natal, South Africa
Richard P. von Rahden, University of KwaZulu-Natal, South Africa
Reitze N. Rodseth, University of KwaZulu-Natal, South Africa

Full Text:

PDF (238KB)

Abstract

Background: Autonomic nervous function, as quantified by heart rate variability (HRV), has shown promise in predicting clinically important outcomes in the critical care setting; however, there is debate concerning its utility. HRV analysis was assessed as a practical tool for outcome prediction in two South African hospitals and compared with Acute Physiology and Chronic Health Evaluation II (APACHE II) scoring.
Method: In a dual centre, prospective, observational cohort study of patients admitted to the intensive care units (ICU) of two hospitals in KwaZulu-Natal, South Africa frequency domain HRV parameters were explored as predictors of: all-cause mortality at 30 days after admission; ICU stay duration; the need for invasive ventilation; the need for inotrope/vasopressor therapy; and the need for renal replacement therapy. The predictive ability of HRV parameters against the APACHE II score for the study outcomes was also compared.
Results: A total of 55 patients were included in the study. Very low frequency power (VLF) was shown to predict 30-day mortality in ICU (odds ratio 0.6; 95% confidence interval 0.396–0.911). When compared with APACHE II, VLF remained a significant predictor of outcome, suggesting that it adds a unique component of prediction. No HRV parameters were predictive for the other secondary outcomes.
Conclusion: This study found that VLF independently predicted all-cause mortality at 30 days after ICU admission. VLF provided additional predictive ability above that of the APACHE II score. As suggested by this exploratory analysis larger multi-centre studies seem warranted. 


Keywords

APACHE II, autonomic nervous system; critical care; heart rate variability; mortality

Metrics

Total abstract views: 96
Total article views: 31

 

Crossref Citations

1. Derivation and validation of heart rate variability based Machine learning prognostic models for patients with suspected sepsis
Hsiang-Ting Keng, Chin-Chieh Wu, Yi-Kai Peng, Men-Tzung Lo, Christophe L. Herry, Ismaeel Yunusa, Shu-Hui Chen, Andrew J.E. Seely, Kuan-Fu Chen
Biomedical Signal Processing and Control  vol: 99  first page: 106854  year: 2025  
doi: 10.1016/j.bspc.2024.106854

2. Heart rate variability: Measurement and emerging use in critical care medicine
Brian W Johnston, Richard Barrett-Jolley, Anton Krige, Ingeborg D Welters
Journal of the Intensive Care Society  vol: 21  issue: 2  first page: 148  year: 2020  
doi: 10.1177/1751143719853744

3. The role of heart rate variability in cardiac surgery: applications and innovations
Patrick Ashinze, Aditya Gaur, Suvam Banerjee, Olamide Matthew Olaniyan, Eniola Akande, Abdullaah Idris-Agbabiaka, Caleb Aboderin, Innocent Shu Bonu, Saheed Abolaji Adeniyi, Ebubechukwu Eriobuna, Abdulmalik Adeyemo, Fridaus Lawal, Olasemo Ayodeji
The Cardiothoracic Surgeon  vol: 33  issue: 1  year: 2025  
doi: 10.1186/s43057-025-00179-9

4. Increases in Heart Rate Variability Signal Improved Outcomes in Rapid Response Team Consultations: A Cohort Study
Nawal Salahuddin, Azam Shafquat, Qussay Marashly, Khaled Juan Zaza, Moh’d Sharshir, Moazzum Khurshid, Zeeshan Ali, Melissa Malgapo, Mouhamad Ghyath Jamil, Mohamed Shoukri, Mohammed Hijazi, Bandar Al-Ghamdi
Cardiology Research and Practice  vol: 2018  first page: 1  year: 2018  
doi: 10.1155/2018/1590217

5. Effectiveness of Different Physiotherapy Protocols in Children in the Intensive Care Unit: A Randomized Clinical Trial
Gabrielle Sousa Barros Souza, Mariana Furtado Marques Novais, Guilherme Euzébio Lemes, Mary Lucy Ferraz Maia Fiuza de Mello, Susan Carolina Diniz de Sales, Katiane da Costa Cunha, Larissa Salgado de Oliveira Rocha, Paulo Eduardo Santos Avila, Rodrigo Santiago Barbosa Rocha
Pediatric Physical Therapy  vol: 34  issue: 1  first page: 10  year: 2022  
doi: 10.1097/PEP.0000000000000848

6. Autonomic dysfunction in COVID-19 patients receiving mechanical ventilation: A cross-sectional study
Renata Baltar da Silva, Victor Ribeiro Neves, Mayara Costa Barros, Bruno Bavaresco Gambassi, Paulo Adriano Schwingel, Dário Celestino Sobral Filho
Sao Paulo Medical Journal  vol: 141  issue: 6  year: 2023  
doi: 10.1590/1516-3180.2022.0513.r1.09022023

7. Analyzing Heart Rate Variability for COVID-19 ICU Mortality Prediction Using Continuous Signal Processing Techniques
Guilherme David, André Lourenço, Cristiana P. Von Rekowski, Iola Pinto, Cecília R. C. Calado, Luís Bento
Journal of Clinical Medicine  vol: 14  issue: 15  first page: 5312  year: 2025  
doi: 10.3390/jcm14155312

8. Heart rate variability as a prognostic marker in critically ill patients
Yogesh Kakde, Shilpa Bawankule, Satish Mahajan, Sourya Acharya, Sunil Kumar, Abhay Gaidhane
F1000Research  vol: 12  first page: 673  year: 2023  
doi: 10.12688/f1000research.133871.1

9. Heart rate variability as a predictor of hypotension following spinal for elective caesarean section: a prospective observational study
D. G. Bishop, C. Cairns, M. Grobbelaar, R. N. Rodseth
Anaesthesia  vol: 72  issue: 5  first page: 603  year: 2017  
doi: 10.1111/anae.13813