Estimation of a treatment effect based on a modified covariates method with \(L_0\) norm

IF 0.8 Q4 ROBOTICS Artificial Life and Robotics Pub Date : 2024-02-09 DOI:10.1007/s10015-023-00929-0
Kensuke Tanioka, Kaoru Okuda, Satoru Hiwa, Tomoyuki Hiroyasu
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Abstract

In randomized clinical trials, we assumed the situation that the new treatment is not adequate compared to the control treatment as a result. However, it is unknown if the new treatment is ineffective for all patients or if it is effective for only a subgroup of patients with specific characteristics. If such a subgroup exists and can be detected, the patients can receive effective therapy. To detect subgroups, we need to estimate treatment effects. To achieve this, various treatment effect estimation methods have been proposed based on the sparse regression method. However, these methods are affected by noise. Therefore, we propose new treatment effect estimation approaches based on the modified covariate method, one using lasso regression and the other ridge regression, using the \(L_0\) norm. The proposed approach was evaluated through numerical simulation and real data examples. As a result, the results of the proposed method were almost the same as those of existing methods in numerical simulations, but were effective in real data example.

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基于具有 $L_0$$ 规范的修正协变量法估算治疗效果
在随机临床试验中,我们假设新疗法与对照疗法相比效果不佳。然而,新疗法是对所有患者无效,还是仅对具有特定特征的亚组患者有效,我们不得而知。如果存在这样的亚组并能被检测出来,患者就能接受有效的治疗。为了检测亚组,我们需要估计治疗效果。为此,人们提出了基于稀疏回归法的各种治疗效果估计方法。然而,这些方法都会受到噪声的影响。因此,我们提出了基于修正协方差方法的新的治疗效果估计方法,一种是使用 lasso 回归,另一种是使用 \(L_0\) 规范的脊回归。我们通过数值模拟和真实数据实例对所提出的方法进行了评估。结果表明,所提方法在数值模拟中的结果与现有方法基本相同,但在实际数据示例中效果显著。
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来源期刊
CiteScore
2.00
自引率
22.20%
发文量
101
期刊介绍: Artificial Life and Robotics is an international journal publishing original technical papers and authoritative state-of-the-art reviews on the development of new technologies concerning artificial life and robotics, especially computer-based simulation and hardware for the twenty-first century. This journal covers a broad multidisciplinary field, including areas such as artificial brain research, artificial intelligence, artificial life, artificial living, artificial mind research, brain science, chaos, cognitive science, complexity, computer graphics, evolutionary computations, fuzzy control, genetic algorithms, innovative computations, intelligent control and modelling, micromachines, micro-robot world cup soccer tournament, mobile vehicles, neural networks, neurocomputers, neurocomputing technologies and applications, robotics, robus virtual engineering, and virtual reality. Hardware-oriented submissions are particularly welcome. Publishing body: International Symposium on Artificial Life and RoboticsEditor-in-Chiei: Hiroshi Tanaka Hatanaka R Apartment 101, Hatanaka 8-7A, Ooaza-Hatanaka, Oita city, Oita, Japan 870-0856 ©International Symposium on Artificial Life and Robotics
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