Rice D A
J Appl Physiol Respir Environ Exerc Physiol. 1983 Jan;54(1):304-8. doi: 10.1152/jappl.1983.54.1.304.
The time it takes audible sound waves to travel across a lobe of excised horse lung was measured. Sound speed, which is the slope in the relationship between transit time and distance across the lobe, was estimated by linear regression analysis. Sound-speed estimates for air-filled lungs varied between 25 and 70 m/s, depending on lung volume. These speeds are less than 5% of sound speed in tissue and less than 20% of sound speed in air. Filling the lung with helium or sulfur hexafluoride, whose free-field sound speeds are 970 and 140 m/s, respectively, changed sound speed +/- 10% relative to air filling. Reducing the ambient pressure to 0.1 atm reduced sound speed to 30% of its 1-atm value. Increasing pressure to 7 atm increased sound speed by a factor of 2.6. These results suggest that 1) translobar sound travels through the bulk of the parenchyma and not along airways or blood vessels, and 2) the parenchyma acts as an elastic continuum to audible sound. The speed of sound is given by c = (B/rho)1/2, where B is composite volumetric stiffness of the medium and rho is average density. In the physiologic state B is affected by ambient pressure and percent gas phase. The average density includes both the tissue and gas phases of the parenchyma, so it is dependent on lung volume. These results may be helpful in the quantification of clinical observations of lung sounds.
测量了可听声波穿过切除的马肺叶所需的时间。声速是穿过肺叶的传播时间与距离之间关系的斜率,通过线性回归分析进行估算。根据肺容积的不同,充气肺的声速估计值在25至70米/秒之间。这些速度低于组织中声速的5%,低于空气中声速的20%。用氦气或六氟化硫填充肺,其自由场声速分别为970和140米/秒,相对于充气,声速变化了±10%。将环境压力降至0.1个大气压会使声速降至其1个大气压值的30%。将压力增至7个大气压会使声速增加2.6倍。这些结果表明:1)跨肺叶声音穿过实质组织的大部分,而不是沿着气道或血管传播;2)实质组织对可听声音起到弹性连续介质的作用。声速由c = (B/ρ)1/2给出,其中B是介质的复合体积刚度,ρ是平均密度。在生理状态下,B受环境压力和气相百分比的影响。平均密度包括实质组织的组织相和气相,因此它取决于肺容积。这些结果可能有助于对肺部声音的临床观察进行量化。
