Add to ORKGThe guide is intended for all those interested in measuring human nasal airflow by rhinomanometry, either for clinical or research purposes. The guide is written in non-technical language so that it may be understood by nursing and support staff who may need to make measurements using rhinomanometry. It is not a systematic review of the literature but a personal view based on over 40 years experience of measuring nasal airflow. The guide introduces the basic principles of nasal airflow and pressure and their measurement. The following topics are discussed: anterior and posterior rhinomanometry and their relative problems and benefits, control of errors in measurement, standard operating procedures, calibration of equipment, measurement of t...
Various rhinomanometry methods can be used to measure nasal airway resistance, which include the cla...
OBJECTIVES: Each nasal area, as defined by Cottle, has a different influence on the nasal airflow. T...
Introduction: The Nasal airflow resistance had 3 components: nasal vestibules, valves and turbinates...
The guide is intended for all those interested in measuring human nasal airflow by rhinomanometry, e...
After a short historical review, the advantages and disadvantages of the current rhinomanometric met...
Objective measures can be used to assist the clinician to diagnose and treat nasal obstruction and a...
Under the auspices of the international Rhinologic Society (IRS) there is an 'International Committe...
Nasal obstruction can be monitored objectively by measurement of nasal airflow, as evaluated by nasa...
Calculation of nasal airway resistance (NAR) using rhinomanometry can be obtained using different me...
This study was undertaken to determine the distribution of nasal resistance in a healthy white popul...
AbstractAcoustic rhinometry, rhinomanometry and Inspiratory Peak Nasal Flow (IPNF) are used in order...
Background: The objective assessment of nasal patency is a common challenge in clinical practice. Th...
In order to determine the problem of the human nose, the pressure of the each nose is considerably n...
Aims Peak Nasal Inspiratory Flow (PNIF) is a cheap and easy method to assess nasal patency. Normati...
Abstract The nose is a major contributing factor for nasal resistance. The nasal airway is responsib...
Various rhinomanometry methods can be used to measure nasal airway resistance, which include the cla...
OBJECTIVES: Each nasal area, as defined by Cottle, has a different influence on the nasal airflow. T...
Introduction: The Nasal airflow resistance had 3 components: nasal vestibules, valves and turbinates...
The guide is intended for all those interested in measuring human nasal airflow by rhinomanometry, e...
After a short historical review, the advantages and disadvantages of the current rhinomanometric met...
Objective measures can be used to assist the clinician to diagnose and treat nasal obstruction and a...
Under the auspices of the international Rhinologic Society (IRS) there is an 'International Committe...
Nasal obstruction can be monitored objectively by measurement of nasal airflow, as evaluated by nasa...
Calculation of nasal airway resistance (NAR) using rhinomanometry can be obtained using different me...
This study was undertaken to determine the distribution of nasal resistance in a healthy white popul...
AbstractAcoustic rhinometry, rhinomanometry and Inspiratory Peak Nasal Flow (IPNF) are used in order...
Background: The objective assessment of nasal patency is a common challenge in clinical practice. Th...
In order to determine the problem of the human nose, the pressure of the each nose is considerably n...
Aims Peak Nasal Inspiratory Flow (PNIF) is a cheap and easy method to assess nasal patency. Normati...
Abstract The nose is a major contributing factor for nasal resistance. The nasal airway is responsib...
Various rhinomanometry methods can be used to measure nasal airway resistance, which include the cla...
OBJECTIVES: Each nasal area, as defined by Cottle, has a different influence on the nasal airflow. T...
Introduction: The Nasal airflow resistance had 3 components: nasal vestibules, valves and turbinates...