淋巴系统和微血管系统对兔膝关节滑膜腔液体吸收的作用。
Contributions of the lymphatic and microvascular systems to fluid absorption from the synovial cavity of the rabbit knee.
作者信息
Levick J R
出版信息
J Physiol. 1980 Sep;306:445-61. doi: 10.1113/jphysiol.1980.sp013406.
Abstract
- The trans-synovial flow (Qs) of Ringer solution from the cavity of immobile knee (stifle) joints was determined in anaesthetized rabbits when intra-articular hydrostatic pressure (PJ) was elevated in steps from 2 to 25 cm H2O. 2. It has been demonstrated previously (Levick, 1978) that slope DQs/dPJ shows an abrupt sixfold increase at a 'breaking point' (PB) around 9 . 5 cm H2O, rising from a mean of 0 . 49 microliter.min-1 cm H2O-1 (PJ less than PB) to 2 . 81 microliter.min-1 cm H2O-1 (PJ greater than PB). 3. Perforation of the synovial intima by an intra-articular cannula increased dQs/dPJ below breaking pressure and thus largely abolished the breaking point phenomenon, indicating that the phenomenon might be simulated by a break-down in synovial resistance to flow. 4. Ligation of the femoral lymph trunks draining the joint did not significantly alter the relationship between Qs and PJ. The slope dQs/dPJ was 0 . 60 +/- 0 . 17 microliter.min-1 cm H2O-1 (mean +/- S.E.) below a breaking pressure of 8 . 8--10.5 cm H2O, and 2 . 90 +/- 0 . 64 microliter.min-1 cm H2O-1 above breaking pressure. Thus changes in synovial lymph flow did not explain the breaking point phenomenon. 5. Interruption of synovial blood flow by vascular clamps or by killing the animal reduced, but did not abolish fluid absorption; nor was the breaking point phenomenon abolished. Slope dQs/dPJ increased from 0 . 37 +/- 0 . 06 microliter.min-1 cm H2O-1 below breaking point (10 . 5 +/- 1 . 0 cm H2O) to between 1 . 82 and 0 . 96 +/- 0 . 15 microliter.min-1 cm H2O-1 above breaking pressure. Fluid accumulated in extra-synovial interstitial spaces. 6. When the synovial intima was divested of its surrounding tissues, lymphatic and vascular supplies by extensive dissection, the denuded synovium still showed a marked increase in hydraulic conductivity at normal breaking pressures. The breaking point phenomenon was therefore not caused by changes in extra-synovial interstitial pressure or compliance. 7. It is concluded that fluid absorption from the joint cavity occurs by two parallel pathways viz. the synovial capillary bed and the extra-synovial interstitial spaces. A simple analysis of the system indicates that the breaking point phenomenon cannot be explained by an abrupt increase in synovial conductivity (cf. Edlund, 1949) but is explicable if synovial conductivity (and possibly interstitial conductivity) becomes a continuous function of PJ above breaking pressure. This hypothesis reconciles the non-linear pressure-flow relationship with Starling's hypothesis for fluid absorption from connective tissue spaces (1896).
摘要
- 在麻醉兔中,当关节内静水压力(PJ)从2厘米水柱逐步升高至25厘米水柱时,测定了固定膝关节腔中林格液的经滑膜流量(Qs)。2. 先前已证实(莱维克,1978年),斜率DQ s/dPJ在约9.5厘米水柱的“断点”(PB)处显示出突然的六倍增加,从平均0.49微升·分钟⁻¹厘米水柱⁻¹(PJ小于PB)升至2.81微升·分钟⁻¹厘米水柱⁻¹(PJ大于PB)。3. 关节内插管穿透滑膜内膜增加了低于断裂压力时的dQ s/dPJ,从而在很大程度上消除了断点现象,表明该现象可能由滑膜对流动阻力的破坏所模拟。4. 结扎引流关节的股淋巴干并未显著改变Qs与PJ之间的关系。在8.8 - 10.5厘米水柱的断裂压力以下,斜率dQ s/dPJ为0.60±0.17微升·分钟⁻¹厘米水柱⁻¹(平均值±标准误),在断裂压力以上为2.90±0.64微升·分钟⁻¹厘米水柱⁻¹。因此,滑膜淋巴流量的变化无法解释断点现象。5. 用血管夹阻断滑膜血流或处死动物可减少但未消除液体吸收;断点现象也未消除。斜率dQ s/dPJ从低于断点(10.5±1.0厘米水柱)时的0.37±0.06微升·分钟⁻¹厘米水柱⁻¹增加至高于断裂压力时的1.82至0.96±0.15微升·分钟⁻¹厘米水柱⁻¹之间。液体积聚在滑膜外间质空间。6. 当通过广泛解剖去除滑膜内膜周围的组织、淋巴管和血管供应时,裸露的滑膜在正常断裂压力下仍显示出明显的水力传导率增加。因此,断点现象不是由滑膜外间质压力或顺应性的变化引起的。7. 得出的结论是,关节腔液体吸收通过两条平行途径发生,即滑膜毛细血管床和滑膜外间质空间。对该系统的简单分析表明,断点现象无法用滑膜传导率的突然增加来解释(参见埃德伦德,1949年),但如果滑膜传导率(可能还有间质传导率)在断裂压力以上成为PJ的连续函数,则可以解释。该假设将非线性压力 - 流量关系与斯塔林关于结缔组织间隙液体吸收的假设(1896年)相协调。
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