Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic review
Abstract Background Growing demand for medical services has increased patient waiting time due to the limited number or unbalanced distribution of healthcare centers. Healthcare teleconsultation networks are one of the potentially powerful systems to overcome this problem. Medical pathology can huge...
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doaj-3e07972d3e484476a9ccd9f420878a412020-11-25T02:42:30ZengBMCBMC Medical Informatics and Decision Making1472-69472020-08-0120111110.1186/s12911-020-01170-6Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic reviewMohammad Mahdi Taghipour0Mohammad Mehdi Sepehri1The Laboratory for Healthcare Systems Optimization, Engineering, and Informatics, Faculty of Industrial and Systems Engineering, Tarbiat Modares UniversityThe Laboratory for Healthcare Systems Optimization, Engineering, and Informatics, Faculty of Industrial and Systems Engineering, Tarbiat Modares UniversityAbstract Background Growing demand for medical services has increased patient waiting time due to the limited number or unbalanced distribution of healthcare centers. Healthcare teleconsultation networks are one of the potentially powerful systems to overcome this problem. Medical pathology can hugely benefit from teleconsultation networks because having second opinions is precious for many cases; however, resource planning (i.e., assignment and distribution of pathology consultation requests) is challenging due to bulky medical images of patients. This results in high setup and operational costs. The aim of this study is to design an optimal teleconsultation network for pathology labs under the supervision of medical sciences universities in Tehran, Iran. Methods To avoid the setup cost, we first propose a modified hybrid peer-to-peer (P2P) overlay architecture for our telepathology network, using Iran’s National Healthcare Information Network (SHAMS) as the underlying infrastructure. Then we apply optimization techniques to solve the request assignment and distribution problems in the network. Finally, we present a novel mathematical model with the objective of minimizing the variable operational costs of the system. Results The efficiency of the proposed method was evaluated by a set of practical-sized network instances simulated based on the characteristics of SHAMS. The results show that the presented model and architecture can obtain optimal solutions for network instances up to 350 nodes, which covers our target network. Conclusions We believe that the proposed method can be beneficial for designing large-scale medical teleconsultation networks by adjusting the constraints according to the rules and conditions of each country. Our findings showed that teleconsultation networks in countries with strong information technology (IT) infrastructures are under the influence of consultation fees, while in countries with weak IT infrastructure, the transmission costs are more critical. To the best of our knowledge, no research has so far addressed resource planning in medical teleconsultation networks using optimization techniques. Besides, the target network, i.e., pathology labs under the supervision of medical sciences universities in Tehran and the SHAMS network, are discussed for the first time in this work.http://link.springer.com/article/10.1186/s12911-020-01170-6Medical teleconsultationTelepathologyHealthcare networksMathematical modelingResource optimizationCost management |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Mohammad Mahdi Taghipour Mohammad Mehdi Sepehri |
spellingShingle |
Mohammad Mahdi Taghipour Mohammad Mehdi Sepehri Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic review BMC Medical Informatics and Decision Making Medical teleconsultation Telepathology Healthcare networks Mathematical modeling Resource optimization Cost management |
author_facet |
Mohammad Mahdi Taghipour Mohammad Mehdi Sepehri |
author_sort |
Mohammad Mahdi Taghipour |
title |
Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic review |
title_short |
Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic review |
title_full |
Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic review |
title_fullStr |
Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic review |
title_full_unstemmed |
Designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in Iran and a systematic review |
title_sort |
designing a novel hybrid healthcare teleconsultation network: a benchtop study of telepathology in iran and a systematic review |
publisher |
BMC |
series |
BMC Medical Informatics and Decision Making |
issn |
1472-6947 |
publishDate |
2020-08-01 |
description |
Abstract Background Growing demand for medical services has increased patient waiting time due to the limited number or unbalanced distribution of healthcare centers. Healthcare teleconsultation networks are one of the potentially powerful systems to overcome this problem. Medical pathology can hugely benefit from teleconsultation networks because having second opinions is precious for many cases; however, resource planning (i.e., assignment and distribution of pathology consultation requests) is challenging due to bulky medical images of patients. This results in high setup and operational costs. The aim of this study is to design an optimal teleconsultation network for pathology labs under the supervision of medical sciences universities in Tehran, Iran. Methods To avoid the setup cost, we first propose a modified hybrid peer-to-peer (P2P) overlay architecture for our telepathology network, using Iran’s National Healthcare Information Network (SHAMS) as the underlying infrastructure. Then we apply optimization techniques to solve the request assignment and distribution problems in the network. Finally, we present a novel mathematical model with the objective of minimizing the variable operational costs of the system. Results The efficiency of the proposed method was evaluated by a set of practical-sized network instances simulated based on the characteristics of SHAMS. The results show that the presented model and architecture can obtain optimal solutions for network instances up to 350 nodes, which covers our target network. Conclusions We believe that the proposed method can be beneficial for designing large-scale medical teleconsultation networks by adjusting the constraints according to the rules and conditions of each country. Our findings showed that teleconsultation networks in countries with strong information technology (IT) infrastructures are under the influence of consultation fees, while in countries with weak IT infrastructure, the transmission costs are more critical. To the best of our knowledge, no research has so far addressed resource planning in medical teleconsultation networks using optimization techniques. Besides, the target network, i.e., pathology labs under the supervision of medical sciences universities in Tehran and the SHAMS network, are discussed for the first time in this work. |
topic |
Medical teleconsultation Telepathology Healthcare networks Mathematical modeling Resource optimization Cost management |
url |
http://link.springer.com/article/10.1186/s12911-020-01170-6 |
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