# A modified method of lung tissue volume measurement using computed tomography numbers

**Authors:** Taiga Kobayashi, Yoshie Kunihiro, Masaki Takemitsu, Takuya Uehara, Masahiro Tanabe, Katsuyoshi Ito

PMC · DOI: 10.1007/s11604-025-01913-3 · Japanese Journal of Radiology · 2025-11-21

## TL;DR

This paper introduces a new CT-based method to measure lung tissue volume more accurately, which could help understand lung diseases and function.

## Contribution

A novel method for calculating lung tissue volume using CT numbers with defined thresholds for air and lung tissue.

## Key findings

- Lung tissue volume correlates moderately with height (r = 0.65) and strongly with total lung volume (r = 0.75).
- The standard lung tissue volume for a 1.7 m tall individual is approximately 530 ml.
- Measurement variation using this method ranges from 1.7% to 17.4%.

## Abstract

The values of lung tissue volume obtained by computed tomography (CT)-based analyses tend to be larger than those obtained by other methods. Establishing accurate reference values for normal lung tissue volume is important for elucidating lung changes in various diseases and may also provide reference values for information on an individual’s potential lung function and lung growth. The present study established a method for accurately calculating the lung tissue volume using CT numbers.

An equation for calculating lung tissue volume based on volume and composition ratio was established, and the lung tissue volume was calculated by substituting the defined CT numbers for air and lung tissue into the equation. The definition of CT number for lung tissue was determined by measuring 64 areas in 32 cases of atelectasis. The definition of CT number for air was determined by evaluating the air CT number measured in the trachea. The degree of measurement error using this method was evaluated in 12 normal cases in which CT was performed on multiple days during inspiratory and expiratory CT. The volume of lung tissue was calculated for 100 normal cases (50 consecutive males and 50 consecutive females).

Lung tissue volume showed a moderate correlation with height (r = 0.65, p < 0.0001). The strongest correlation was observed with volume of the total lung (r = 0.75, p < 0.0001). The lung tissue volume was approximately 530 ml for a standard body size (height, 1.7 m). The variation in the values using this method was 1.7–17.4%.

Our study using CT numbers supports the findings of previous reports using non-image analysis. This measurement method has the potential to provide a large amount of new, noninvasive anatomical information regarding the lungs.

## Full-text entities

- **Diseases:** atelectasis (MESH:D001261)

## Full text

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## Figures

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Source: https://tomesphere.com/paper/PMC13038697