Inhalational burns in children

Whitelock-Jones, Linda

29 March 2017

This study began in 1990 in the Burn Unit of The Red Cross War Memorial Children's Hospital (RCWMCH) in Capetown. It came to our attention that children in the Burn Unit developed respiratory problems. These were complications of fireburns, smoke inhalation, explosions and even hot water scalds. They presented with a wide and confusing array of symptoms and many failed to improve with the symptomatic treatment given. Greater understanding of the pathology was needed in order to investigate and manage these problems correctly. The ultimate aim of this study was to establish a treatment protocol that could be followed by junior staff.

Paediatric Surgery

Development and optimisation of inhalable EGCG nano-liposomes as a potential treatment for pulmonary arterial hypertension by implementation of the design of experiments approach

Haddad, Fatma, Mohammed, Nura, Gopalan, Rajendran C., Al Ayoub, Y., Nasim, Md. Talat, Assi, Khaled H.

25 January 2023

Yes / Epigallocatechin gallate (EGCG), the main ingredient in green tea, holds promise as a potential treatment for pulmonary arterial hypertension (PAH). However, EGCG has many drawbacks, including stability issues, low bioavailability, and a short half-life. Therefore, the purpose of this research was to develop and optimize an inhalable EGCG nano-liposome formulation aiming to overcome EGCG’s drawbacks by applying a design of experiments strategy. The aerodynamic behaviour of the optimum formulation was determined using the next-generation impactor (NGI), and its effects on the TGF-β pathway were determined using a cell-based reporter assay. The newly formulated inhalable EGCG liposome had an average liposome size of 105 nm, a polydispersity index (PDI) of 0.18, a zeta potential of −25.5 mV, an encapsulation efficiency of 90.5%, and a PDI after one month of 0.19. These results are in complete agreement with the predicted values of the model. Its aerodynamic properties were as follows: the mass median aerodynamic diameter (MMAD) was 4.41 µm, the fine particle fraction (FPF) was 53.46%, and the percentage of particles equal to or less than 3 µm was 34.3%. This demonstrates that the novel EGCG liposome has all the properties required to be inhalable, and it is expected to be deposited deeply in the lung. The TGFβ pathway is activated in PAH lungs, and the optimum EGCG nano-liposome inhibits TGFβ signalling in cell-based studies and thus holds promise as a potential treatment for PAH. / This study was supported by Schlumberger Foundation’s faculty for the future in the form of PhD funding awarded to Fatma Haddad.

EGCG

Nano-liposome

Inhalation

PAH

Design of experiments

Investigations to identify the influence of the inhalation manoeuvre on the ex-vivo dose emission and the in-vitro aerodynamic dose emission characteristics of dry powder inhalers : studies to identify the influence of inhalation flow, inhalation volume and the number of inhalations per dose on the ex-vivo dose emission and the in-vitro aerodynamic dose emission characteristics of dry powder inhalers

Yakubu, Sani Ibn

January 2009

Currently available dry powder inhalers (DPIs) for drug delivery to the lungs require turbulent energy to generate and disperse aerosol particles in the respirable range ≤5μm during inhalation. The patient's inspiratory effort together with the resistance inside the device creates this energy. Different inhalers provide varying degrees of resistance to inhalation flow and require different inhalation techniques for the generation and delivery of drug fine particles in respirable size range to the lungs. The aim of this research programme was to identify the influence of inhalation flow, inhalation volume and the number of inhalations per dose on the ex-vivo dose emission and the in-vitro aerodynamic dose emission characteristics of the salbutamol Accuhaler®, Easyhaler®, and Clickhaler® and the terbutaline Turbuhaler® DPIs. A high-performance liquid chromatography method for the assay of salbutamol sulphate and terbutaline sulphate in aqueous samples was modified and accordingly validated. In-vitro dose emission of the four different DPIs was measured using the pharmacopoeia method with modifications to simulate varying inhalation flows within patient and between patients. The ranges of the total emitted dose (% nominal dose) at the inhalation flow range of 10 - 60 Lmin-1, following one and two inhalations per metered dose for 2L and 4L inhaled volumes were as follows: the Accuhaler (52.64- 85.11; 61.88-85.11 and 59.23-85.11; 62.81-85.11); the Easyhaler (68.35-91.99; 79.94-91.99 and 73.83-92.51; 80.40-92.51); the Clickhaler (46.55-96.49; 51.12-96.49 and 51.18-101.39; 59.71-101.39) as well as the Turbuhaler (46.08-88.13; 51.95-88.13 and 48.05-89.22; 48.64-89.22). The results highlight that the four inhalers have flow-dependent dose emission property to a varying degree using 2L and 4 L inhaled volumes. There was no significant difference in the total emitted dose between a 2L inhaled volume and a 4L inhaled volume at each inhalation flow. Furthermore, the total emitted dose from the Easyhaler®, Clickhaler®, and Turbuhaler® was significantly (p≤0.001) greater with two inhalations than one inhalation per metered dose across the range of inhalation flow (10-60) Lmin-1. This effect was only observed at inhalation flow less than 30 Lmin-1 with the Accuhaler®. Overall there is a significant difference in the total emitted dose. The ex-vivo dose emission of the four different DPIs has been determined using the In- Check Dial device to train twelve non-smoking healthy adult volunteers to inhale at slow (30 Lmin-1) and fast (60 L min-1) inhalation flows through the device with its dial set corresponding to each inhaler. Subsequently each volunteer inhaled at the trained inhalation flows through each active inhaler. The local ethics committee approval was obtained prior to the study and all volunteers gave signed informed consent. The results obtained demonstrate that the studied inhalers have flow-dependent dose emission, thereby enhancing confidence in the use of the In-Check Dial® to identify a patient's inhalation flows through a variety of DPIs. Also the total emitted dose determined by ex-vivo methodology was significantly (p≤0.05) greater with two inhalations than one inhalation per metered dose. The results of the in-vitro aerodynamic dose emission characteristics highlight that the fine particle dose (FPD) from the four studied inhalers is flow dependent. Also the minimum inhalation flow to generate the (FPD) with the appropriate characteristics for lung deposition has been identified to be 20 L min⁻¹ for the Accuhaler®, Easyhaler® and Clickhaler®, while that for the Turbuhaler® is about 30 L min⁻¹. Also the inhalation volume above 2L and the number of inhalations for each dose have respectively no significant (p≤0.05) influence on the FPD emitted from the four studied inhalers. The results support the present instructions to patients using these inhalers to inhale once for each dose as fast as they can.

615.19

How to improve prescription of inhaled salbutamol by providing standardised feedback on administration

Neininger, Martina P., Kaune, Almuth, Bertsche, Astrid, Rink, Jessica, Musiol, Juliane, Frontini, Roberto, Prenzel, Freerk, Kiess, Wieland, Bertsche, Thilo

16 February 2015

Background: The effectiveness of inhaled salbutamol in routine care depends particularly on prescribed dosage and applied inhalation technique. To achieve maximum effectiveness and to prevent drug-related problems, prescription and administration need to work in concert. Methods: We performed a controlled intervention pilot study with 4 consecutive groups in a general paediatric unit and assessed problems in salbutamol prescribing and administration. Control group [i]: Routine care without additional support. First intervention group [ii]: We carried out a teaching session for nurses aimed at preventing problems in inhalation technique. Independently from this, a pharmacist counselled physicians on problems in salbutamol prescribing. Second intervention group [iii]: Additionally to the first intervention, physicians received standardised feedback on the inhalation technique. Follow-up group [iv]: Subsequently, without any delay after the second intervention group had been completed, sustainability of the measures was assessed. We performed the chi-square test to calculate the level of significance with p ≤ 0.05 to indicate a statistically significant difference for the primary outcome. As we performed multiple testing, an adjusted p ≤ 0.01 according to Bonferroni correction was considered as significant. Results: We included a total of 225 patients. By counselling the physicians, we reduced the number of patients with problems from 55% to 43% (control [i] vs. first intervention [ii], n.s.). With additional feedback to physicians, this number was further reduced to 25% ([i] vs. [iii], p < 0.001). In the follow-up [iv], the number rose again to 48% (p < 0.01 compared to feedback group). Conclusions: Teaching nurses, counselling physicians, and providing feedback on the quality of inhalation technique effectively reduced problems in salbutamol treatment. However, for success to be sustained, continuous support needs to be provided. Trial registration: German Clinical Trials register: DRKS00006792.

Rezept

Verordnung

Verabreichung

Salbutamol

Kinderheilkunde

Dosierung

Inhalation

Prescription

Administration

Salbutamol

Paediatric

Dosing

Inhalation

ddc:610

Evaluation of novel tool to ensure asthma and COPD patients use the approved inhalation technique when they use an inhaler : clinical pharmacy studies investigating the impact of novel inhalation technique training devices and spacers on the inspiratory characteristics, disease control and quality of life of patients when using their inhalers

Ammari, Wasem Ghazi Saleem

January 2010

Many respiratory patients misuse their inhaler. Although training improves their inhaler technique, patients do forget the correct inhaler use with time. In the current work, three clinical studies investigated novel tools designed with feedback mechanisms to ensure patients use the correct inhalation method when using their inhaler. Research Ethics Committee approval was obtained and all the participants signed an informed consent form. In the first study, the recruited asthmatic children (n=17) and adults (n=39) had their metered dose inhaler (MDI) technique assessed. Those who attained the recommended inhalation flow rate (IFR) of < 90 l/min through their MDI formed the control group. Whilst those who had a poor MDI technique with an IFR ≥ 90 l/min were randomized into either the verbal counselling (VC) group; or the 2ToneTrainer (2TT) group that, in addition to the verbal training, received the 2ToneTrainer MDI technique training device equipped with an audible feedback mechanism of correct inhalation flow. All the participants were assessed on two occasions (6 weeks apart) for their inhalation flow rate, asthma control and quality of life. The study showed that the 2ToneTrainer tool was as efficient as verbal training in improving and maintaining the asthmatic patients' MDI technique, particularly using the recommended slow inhalation flow through the MDI. Although statistically insignificant, potential improvement in quality of life was demonstrated. The 2ToneTrainer tool has the advantage of being available to the patients all the time to use when they are in doubt of their MDI technique. In the second research study, the inhalation profiles of asthmatic children (n=58) and adults (n=63), and of COPD patients (n=63) were obtained when they inhaled through the novel Spiromax dry powder inhaler (DPI) which was connected to an electronic pressure change recorder. From these inspiratory profiles; the peak inhalation flow, inhalation volume and inhalation acceleration rate were determined. The variability (23%-58%) found in these inhalation profile parameters among various patient groups would be expected in all DPIs. The effect of the inhalation acceleration rates and volumes on dose emission characteristics from DPIs should be investigated. Attention, though, should be paid to the patients' realistic inhalation profile parameters, rather than the recommended Pharmacopoeial optimal inhalation standard condition, when evaluating the in-vitro performance of DPIs. Finally, in preschool asthmatic children, the routine use of the current AeroChamber Plus spacer (n=9) was compared with that of a novel version; the AeroChamber Plus with Flow-Vu spacer (n=10) over a 12-week period. The Flow-Vu spacer has a visual feedback indicator confirming inhalation and tight mask-face seal. The study showed that the new AeroChamber Plus with Flow-Vu spacer provided the same asthma control as the AeroChamber Plus in preschool children and maintained the same asthma-related quality of life of their parents. However, the parents preferred the new Flow-Vu spacer because its visual feedback indicator of inhalation reassured them that their asthmatic children did take their inhaled medication sufficiently.

615.1

Inhaled sedation with isoflurane in the intensive care unit /

Sackey, Peter V.,

January 2006

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 5 uppsatser.

Effets respiratoires d'expositions répétées, à des nanoparticules d'oxydes de manganèse et de fer chez la souris / Respiratory effects of repeated exposure, to manganese and iron oxides nanoparticles in the mice

Presume, Mirlande

02 October 2013

L’étude des effets respiratoires d’aérosols d’oxydes métalliques par inhalation chez la souris est motivée par les observations chez les patients soudeurs. En effet, les soudeurs développent des pathologies cardio-respiratoires qui pourraient être directement ou indirectement liées à l’exposition aux fumées de soudage. Ces fumées de soudage sont composées de différentes espèces chimiques, de poussières mais aussi de nanoparticules (NP). En effet, on retrouve des NP jusqu’à 80 % en nombre et 11% en masse dans les fumées de soudage. Dans le but d’évaluer le rôle de la composante nanoparticulaire des fumées de soudage, mon sujet de thèse est centré sur l’étude des effets respiratoires d’expositions répétées aux aérosols de NP d’oxydes de fer et de manganèse par inhalation chez la souris Dans le précédent rapport, nous avions présenté la technique de génération des aérosols d’oxydes de NP / Traduction de Reverso en Anglais The study of the respiratory effects of sprays of metal oxides by inhalation to the mouse is motivated by the observations at the patients welders. Indeed, the welders develop cardio-respiratory pathologies which could be directly or indirectly bound to the exhibition in smokes of soldering. These smokes of soldering are consisted of various chemical species, dusts but also nanoparticles (NP). Indeed, we find NP until 80 % in number and mass 11 % in smokes of soldering. With the aim of estimating the role of the component nanoparticulaire smokes of soldering, my thesis subject is centered on the study of the respiratory effects of exhibitions repeated to the sprays of NP of iron oxide and manganese by inhalation to the mouse

Nanoparticules

Soudeurs

Poumon

Inhalation

Expositions répétées

Stress oxydant

Nanoparticles

Welders

Lungs

Inhalation

Repeated exposure

Oxidative stress

Développement et caractérisation physico-chimique d'une nouvelle forme galénique à base d'Amphotéricine B adaptée à la voie orale et pulmonaire / Development and physicochemical characterization of a new galenic form based on Amphotericin B adapted to the oral and pulmonary route

Mehenni, Lyes

07 March 2018

Les infections fongiques peuvent s’exprimer sous différentes formes (leishmaniose cutanée ouviscérale, aspergillose pulmonaire à caractère allergique ou invasive) et connaissent unerecrudescence dans les pays développés en affectant principalement les personnesimmunodéprimées comme les cancéreux, les malades ayant subis des greffes d’organes ou lespatients atteints du VIH. Ces infections sont une cause de mortalité chez 30% des sujetsatteints. L’approche médicamenteuse conventionnelle consiste en l’administration par voieintraveineuse (IV) d’antifongiques. L'Amphotéricine B (AmB), un antibiotiquede la familledes polyènes, reste à ce jour l'un des agents les plus efficaces dans le traitement des infectionsfongiques systémiques mais entraîne aussi des effets indésirables comme une néphrotoxicitéaigüe après injection. Pour améliorer l’index thérapeutique de cette molécule active, nousavons développé différents outils galéniques adaptés à d’autres voies d’administration. Dansun premier temps, nous avons mis au point des liposomes à base de céramides végétales,adaptés pour une administration orale et dans le but de traiter la leishmaniose viscérale. Cesliposomes ont été testés dans un modèle in vitro Estomac/Duodénum pour mimer lesconditions physiologiques et ont montré une bonne stabilité dans un tel milieu avec un tauxd’encapsulation satisfaisant. Des liposomes formulés à partir de Dimyristoylphosphatidylcholine(DMPC)/Dimyristoylphosphatidylglycérol (DMPG) et encapsulantl’AmB ont été étudiés à l’aide de la résonnance magnétique nucléaire (RMN31P et 1H) et parrésonnance paramagnétique électronique (RPE). Ces liposomes, dont la composition pourraitêtre adaptée pour une administration par voie pulmonaire, ont été utiliséscomme modèlemembranaire pour une étude des interactions du principe actif dans la matrice liposomale.Enfin, nous décrivons le développement et la caractérisation physico-chimique d’une nouvellegénération de dispersions solides amorphes sphériques formulées à base de polymères decyclodextrines très hydrophiles et d’amphotéricine B.Les formulations ont été obtenues sousforme de poudre sèche par spray-drying, une méthode de séchage par atomisation. Cessystèmes ont été caractérisés par diverses techniques : spectroscopie infrarouge à transforméede Fourier (FT-IR), spectroscopie Raman, granulométrie laser, microscopie électronique àtransmission et microscopie électronique à balayage. La distribution aérodynamique de cesdispersions solides amorphes a été évaluée à l’aide d’un impacteur à cascades afin de testerleur intérêt pour des applications potentielles par voie pulmonaire. / Résumé en anglais non disponible

Amphotéricine

Leishmaniose

Aspergillose pulmonaire

Thérapie par inhalation

Cyclodextrines

Amphotericin

Leishmaniasis

Pulmonary aspergillosis

Inhalation therapy

Cyclodextrins

610

Evaluation of novel tool to ensure asthma and COPD patients use the approved inhalation technique when they use an inhaler. Clinical pharmacy studies investigating the impact of novel inhalation technique training devices and spacers on the inspiratory characteristics, disease control and quality of life of patients when using their inhalers.

Ammari, Wasem G.S.

January 2010

Many respiratory patients misuse their inhaler. Although training improves their inhaler technique, patients do forget the correct inhaler use with time. In the current work, three clinical studies investigated novel tools designed with feedback mechanisms to ensure patients use the correct inhalation method when using their inhaler. Research Ethics Committee approval was obtained and all the participants signed an informed consent form. In the first study, the recruited asthmatic children (n=17) and adults (n=39) had their metered dose inhaler (MDI) technique assessed. Those who attained the recommended inhalation flow rate (IFR) of < 90 l/min through their MDI formed the control group. Whilst those who had a poor MDI technique with an IFR ¿ 90 l/min were randomized into either the verbal counselling (VC) group; or the 2ToneTrainer (2TT) group that, in addition to the verbal training, received the 2ToneTrainer MDI technique training device equipped with an audible feedback mechanism of correct inhalation flow. All the participants were assessed on two occasions (6 weeks apart) for their inhalation flow rate, asthma control and quality of life. The study showed that the 2ToneTrainer tool was as efficient as verbal training in improving and maintaining the asthmatic patients¿ MDI technique, particularly using the recommended slow inhalation flow through the MDI. Although statistically insignificant, potential improvement in quality of life was demonstrated. The 2ToneTrainer tool has the advantage of being available to the patients all the time to use when they are in doubt of their MDI technique. In the second research study, the inhalation profiles of asthmatic children (n=58) and adults (n=63), and of COPD patients (n=63) were obtained when they inhaled through the novel Spiromax dry powder inhaler (DPI) which was connected to an electronic pressure change recorder. From these inspiratory profiles; the peak inhalation flow, inhalation volume and inhalation acceleration rate were determined. The variability (23% - 58%) found in these inhalation profile parameters among various patient groups would be expected in all DPIs. The effect of the inhalation acceleration rates and volumes on dose emission characteristics from DPIs should be investigated. Attention, though, should be paid to the patients¿ realistic inhalation profile parameters, rather than the recommended Pharmacopoeial optimal inhalation standard condition, when evaluating the in-vitro performance of DPIs. Finally, in preschool asthmatic children, the routine use of the current AeroChamber Plus spacer (n=9) was compared with that of a novel version; the AeroChamber Plus with Flow-Vu spacer (n=10) over a 12-week period. The Flow-Vu spacer has a visual feedback indicator confirming inhalation and tight mask-face seal. The study showed that the new AeroChamber Plus with Flow-Vu spacer provided the same asthma control as the AeroChamber Plus in preschool children and maintained the same asthma-related quality of life of their parents. However, the parents preferred the new Flow-Vu spacer because its visual feedback indicator of inhalation reassured them that their asthmatic children did take their inhaled medication sufficiently.

Inhalers

Inhalation technique

Inhalation tools

Asthma

COPD

Specific disease outcomes

Inhaler misuse

Asthmatic children

Investigations to identify the influence of the inhalation manoeuvre on the ex-vivo dose emission and the in-vitro aerodynamic dose emission characteristics of dry powder inhalers: Studies to identify the influence of inhalation flow, inhalation volume and the number of inhalations per dose on the ex-vivo dose emission and the in-vitro aerodynamic dose emission characteristics of dry powder inhalers.

Ibn Yakubu, Sani

January 2009

Currently available dry powder inhalers (DPIs) for drug delivery to the lungs require turbulent energy to generate and disperse aerosol particles in the respirable range ¿5¿m during inhalation. The patient's inspiratory effort together with the resistance inside the device creates this energy. Different inhalers provide varying degrees of resistance to inhalation flow and require different inhalation techniques for the generation and delivery of drug fine particles in respirable size range to the lungs. The aim of this research programme was to identify the influence of inhalation flow, inhalation volume and the number of inhalations per dose on the ex-vivo dose emission and the in-vitro aerodynamic dose emission characteristics of the salbutamol Accuhaler®, Easyhaler®, and Clickhaler® and the terbutaline Turbuhaler® DPIs. A high-performance liquid chromatography method for the assay of salbutamol sulphate and terbutaline sulphate in aqueous samples was modified and accordingly validated. In-vitro dose emission of the four different DPIs was measured using the pharmacopoeia method with modifications to simulate varying inhalation flows within patient and between patients. The ranges of the total emitted dose (% nominal dose) at the inhalation flow range of 10 - 60 Lmin-1, following one and two inhalations per metered dose for 2L and 4L inhaled volumes were as follows: the Accuhaler (52.64- 85.11; 61.88-85.11 and 59.23-85.11; 62.81-85.11); the Easyhaler (68.35-91.99; 79.94-91.99 and 73.83-92.51; 80.40-92.51); the Clickhaler (46.55-96.49; 51.12-96.49 and 51.18-101.39; 59.71-101.39) as well as the Turbuhaler (46.08-88.13; 51.95-88.13 and 48.05-89.22; 48.64-89.22). The results highlight that the four inhalers have flow-dependent dose emission property to a varying degree using 2L and 4 L inhaled volumes. There was no significant difference in the total emitted dose between a 2L inhaled volume and a 4L inhaled volume at each inhalation flow. Furthermore, the total emitted dose from the Easyhaler®, Clickhaler®, and Turbuhaler® was significantly (p¿0.001) greater with two inhalations than one inhalation per metered dose across the range of inhalation flow (10 ¿ 60) Lmin-1. This effect was only observed at inhalation flow less than 30 Lmin-1 with the Accuhaler®. Overall there is a significant difference in the total emitted dose. The ex-vivo dose emission of the four different DPIs has been determined using the In- Check Dial device to train twelve non-smoking healthy adult volunteers to inhale at slow (30 Lmin-1) and fast (60 L min-1) inhalation flows through the device with its dial set corresponding to each inhaler. Subsequently each volunteer inhaled at the trained inhalation flows through each active inhaler. The local ethics committee approval was obtained prior to the study and all volunteers gave signed informed consent. The results obtained demonstrate that the studied inhalers have flow-dependent dose emission, thereby enhancing confidence in the use of the In-Check Dial® to identify a patient¿s inhalation flows through a variety of DPIs. Also the total emitted dose determined by ex-vivo methodology was significantly (p¿0.05) greater with two inhalations than one inhalation per metered dose. The results of the in-vitro aerodynamic dose emission characteristics highlight that the fine particle dose (FPD) from the four studied inhalers is flow dependent. Also the minimum inhalation flow to generate the (FPD) with the appropriate characteristics for lung deposition has been identified to be 20 L min-1 for the Accuhaler®, Easyhaler® and Clickhaler®, while that for the Turbuhaler® is about 30 L min-1. Also the inhalation volume above 2L and the number of inhalations for each dose have respectively no significant (p¿0.05) influence on the FPD emitted from the four studied inhalers. The results support the present instructions to patients using these inhalers to inhale once for each dose as fast as they can.

Dose emission

Ex-vivo

In-vitro

Aerodynamic characteristics

Inhalation flow

Inhalation volume

Dry powder inhalers