THE EFFECT OF BRONCHIAL BLOOD-FLOW ON HYPERPNEA-INDUCED AIRWAY-OBSTRUCTION AND INJURY

被引：9

作者：

FREED, AN ^{[1
]}

OMORI, C ^{[1
]}

SCHOFIELD, BH ^{[1
]}

机构：

[1] NIHON UNIV,SCH MED,DEPT INTERNAL MED 1,ITABASHI KU,TOKYO 173,JAPAN

来源：

JOURNAL OF CLINICAL INVESTIGATION | 1995年 / 96卷 / 03期

关键词：

AIRWAY RESISTANCE; AIRWAY INJURY; BRONCHIAL CIRCULATION; BRONCHOVASCULAR LEAKAGE; DOG;

D O I：

10.1172/JCI118155

中图分类号：

R-3 [医学研究方法]; R3 [基础医学];

学科分类号：

1001 ;

摘要：

We examined the effect of bronchial blood flow (BBF) on hyperpnea-induced airway obstruction (HIAO) in dogs. HIAO in in situ isolated pulmonary lobes with or without BBF was monitored via a bronchoscope. An intravascular tracer in conjunction with morphometric analysis was used to document the efficacy of our occlusion technique, We found that (a) Occlusion of the bronchial artery abolished bronchovascular leakage, but did not alter HIAO; (b) HIAO occurred in postmortem dogs, and was attenuated by cooling; (c) absence of BBF did not cause mucosal damage, although hyperpnea-induced injury was enhanced in airways lacking BBF; (d) BBF did not affect either goblet/ciliated cell ratios or hyperpnea-induced goblet cell degranulation; (e) ligation of the bronchial artery and hyperpnea each caused mast cell degranulation, and these effects were additive; (f) hyperpnea-induced leukocyte infiltration was reduced in the absence of BBF; and (g) ligation of the bronchial artery and hyperpnea with dry air each increased airway vessel diameter, and these effects were additive. We conclude that either impairment or absence of BBF abolishes bronchovascular leakage and increases hyperpnea-induced mucosal injury, but fails to affect HIAO. Based on these results we speculate that bronchovascular leakage protects the bronchial mucosa from excessive losses of heat and water, and inhibits mucosal damage.

引用

页码：1221 / 1229

页数：9

共 38 条

[1]

BADIER M, 1988, RESPIR PHYSL, V72, P1

[2] PROPOSED NOMENCLATURE FOR QUANTIFYING SUBDIVISIONS OF THE BRONCHIAL WALL [J].

BAI, A ;

EIDELMAN, DH ;

HOGG, JC ;

JAMES, AL ;

LAMBERT, RK ;

LUDWIG, MS ;

MARTIN, J ;

MCDONALD, DM ;

MITZNER, WA ;

OKAZAWA, M ;

PACK, RJ ;

PARE, PD ;

SCHELLENBERG, RR ;

TIDDENS, HAWM ;

WAGNER, EM ;

YAGER, D .

JOURNAL OF APPLIED PHYSIOLOGY, 1994, 77 (02) :1011-1014

[3] BLOOD-FLOW TO THE TRACHEA AND BRONCHI - THE PULMONARY CONTRIBUTION [J].

BAILE, EM ;

MINSHALL, D ;

DODEK, PM ;

PARE, PD .

JOURNAL OF APPLIED PHYSIOLOGY, 1994, 76 (05) :2063-2069

[4] EFFECT OF COLD AND WARM DRY AIR HYPERVENTILATION ON CANINE AIRWAY BLOOD-FLOW [J].

BAILE, EM ;

DAHLBY, RW ;

WIGGS, BR ;

PARSONS, GH ;

PARE, PD .

JOURNAL OF APPLIED PHYSIOLOGY, 1987, 62 (02) :526-532

[5] MECHANISM FOR INCREASE IN TRACHEOBRONCHIAL BLOOD-FLOW INDUCED BY HYPERVENTILATION OF DRY AIR IN DOGS [J].

BAILE, EM ;

GODDEN, DJ ;

PARE, PD .

JOURNAL OF APPLIED PHYSIOLOGY, 1990, 68 (01) :105-112

[6]

BIAGINI RE, 1991, J APPL TOXICOL, V44, P1

[7] HYPERVENTILATION-INDUCED BRONCHOCONSTRICTION IN GUINEA-PIGS [J].

CHAPMAN, RW ;

DANKO, G .

INTERNATIONAL ARCHIVES OF ALLERGY AND APPLIED IMMUNOLOGY, 1985, 78 (02) :190-196

[8]

DINH XUAN AT, 1989, EUR RESPIR J, V2, P409

[9]

EGGLESTON PA, 1987, AM REV RESPIR DIS, V135, P1043

[10] AIR-FLOW-INDUCED BRONCHOSPASM - IMBALANCE BETWEEN AIRWAY COOLING AND AIRWAY DRYING [J].

FREED, AN ;

KELLY, LJ ;

MENKES, HA .

AMERICAN REVIEW OF RESPIRATORY DISEASE, 1987, 136 (03) :595-599

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