Dry Powder Inhaler
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Aug 17, 2017
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About This Presentation
sachin sanap
Slide Content
Aug 17, 2017
(Mentor Institute)
DRY POWDER FORMULATION FOR
TREATING TUBERCULOSIS
PRESENTED BY
SACHIN SANAP
M.S. (PHARM.)- PHARMACEUTICS
SECOND SEMESTER
ID NO- 410/16
RAEBARELIRAEBARELI
(Mentor Institute)
DRY POWDER FORMULATION FOR
TREATING TUBERCULOSIS
PRESENTED BY
SACHIN SANAP
M.S. (PHARM.)- PHARMACEUTICS
SECOND SEMESTER
ID NO- 410/16
RAEBARELIRAEBARELI
CONTENTSCONTENTS
INTRODUCTION
PULMONARY ROUTES
INHALATION DELIVERY DEVICES FOR PULMONARY DELIVERY
DRUGS STUDIED FOR PULMONARY DELIVERY USING DPI
TECHNIQUES USED FOR PRODUCTION OF ANTI-TB FORMULATIONS
FORMULATION APPROACHES FOR DPI FOR TUBERCULOSIS
CHALLENGES FOR DEVELOPING DPI FOR TB PATIENTS
CONCLUSION
REFERENCES
Aug 17, 2017 1
INTRODUCTION
PULMONARY ROUTES
INHALATION DELIVERY DEVICES FOR PULMONARY DELIVERY
DRUGS STUDIED FOR PULMONARY DELIVERY USING DPI
TECHNIQUES USED FOR PRODUCTION OF ANTI-TB FORMULATIONS
FORMULATION APPROACHES FOR DPI FOR TUBERCULOSIS
CHALLENGES FOR DEVELOPING DPI FOR TB PATIENTS
CONCLUSION
REFERENCES
Aug 17, 2017 1
INTRODUCTIONINTRODUCTION
Tuberculosis (TB) is an infectious disease caused by
Mycobacterium tuberculosis (MTB).
World Health Organization (WHO), one third of the world
population (around 2 billion) is estimated to be infected with
MTB while 2 million people die of TB each year and 8
million develop active TB.
The severity has been complicated due to Acquired
Immuno Deficiency Syndrome (AIDS) and the emergence
of multi-drug resistant TB (MDR-TB)
Aug 17, 2017 2
Tuberculosis (TB) is an infectious disease caused by
Mycobacterium tuberculosis (MTB).
World Health Organization (WHO), one third of the world
population (around 2 billion) is estimated to be infected with
MTB while 2 million people die of TB each year and 8
million develop active TB.
The severity has been complicated due to Acquired
Immuno Deficiency Syndrome (AIDS) and the emergence
of multi-drug resistant TB (MDR-TB)
Aug 17, 2017 2
PULMONARY DELIVERY
Treat conditions like asthma and COPD (chronic
obstructive pulmonary disease), providing local and
systemic action.
Advantages:
Avoid first pass metabolism.
Employed for local and systemic effect.
Greater bioavailability and less systemic toxicity.
Targeted delivery is possible.
Provides quick onset of action.
Non-invasive delivery of drug.
Aug 17, 2017 3
Treat conditions like asthma and COPD (chronic
obstructive pulmonary disease), providing local and
systemic action.
Advantages:
Avoid first pass metabolism.
Employed for local and systemic effect.
Greater bioavailability and less systemic toxicity.
Targeted delivery is possible.
Provides quick onset of action.
Non-invasive delivery of drug.
Aug 17, 2017 3
Besides these advantages pulmonary drug delivery also has
some of limitations like
There may be local side effect due to deposition of drug
in oropharynx
Limited drug absorption due to mucosal barrier.
Improper use of pulmonary drug device.
Aug 17, 2017 4
some of limitations like
There may be local side effect due to deposition of drug
in oropharynx
Limited drug absorption due to mucosal barrier.
Improper use of pulmonary drug device.
Aug 17, 2017 4
Inhalation delivery devices for pulmonary deliveryInhalation delivery devices for pulmonary delivery
Fig.1. A nebulizer may achieve atomization of droplets by a stream of compressed air, or through
piezoelectric sonication, or by mechanical means such as a vibrating mesh or spring-loaded
nozzle.[2]
Fig.2. A pMDI uses a dose-metering valve to deliver medicament suspended in a propellant spray.
[2]
Aug 17, 2017 5
Fig.1. A nebulizer may achieve atomization of droplets by a stream of compressed air, or through
piezoelectric sonication, or by mechanical means such as a vibrating mesh or spring-loaded
nozzle.[2]
Fig.2. A pMDI uses a dose-metering valve to deliver medicament suspended in a propellant spray.
[2]
Aug 17, 2017 5
Fig.3. DPI delivers a more gentle stream of inhalant through indrawn breath.[2]
A dry-powder inhaler (DPI) is a device that delivers
medication to the lungs in the form of a dry powder.
DPIs are commonly used to treat respiratory diseases
such as asthma, bronchitis, emphysema and COPD
although DPIs (such as inhalable insulin Afrezza) have
also been used in the treatment of diabetes mellitus.
Aug 17, 2017 6
A dry-powder inhaler (DPI) is a device that delivers
medication to the lungs in the form of a dry powder.
DPIs are commonly used to treat respiratory diseases
such as asthma, bronchitis, emphysema and COPD
although DPIs (such as inhalable insulin Afrezza) have
also been used in the treatment of diabetes mellitus.
Aug 17, 2017 6
Drugs Studied for Pulmonary Delivery Using DPIDrugs Studied for Pulmonary Delivery Using DPI
Table 1. Dry powder inhalers of single anti-TB drug formulations. .
Aug 17, 2017 7
Drug Method Formulation Key outcome
RifampicinSpray drying
Rifampicin-lactose
composite
Rifampicin and lactose
retained crystalline structure.
Rifampicin
Recrystallisation and
spray drying Crystalline powder
Improved aerosolisation
properties, fine particle
fraction (FPF) 68%
Rifapentine
Crystallisation and
spray drying
Crystalline and
amorphous powder
High FPF of 83% and 69% for
crystalline and amorphous
powder, respectively.
...
Isoniazid
Supercritical fluid-
spray drying
Microparticles enriched
with leucine
Particle size within inhalable
range.
Table 1. Dry powder inhalers of single anti-TB drug formulations. .
Aug 17, 2017 7
Drug Method Formulation Key outcome
RifampicinSpray drying
Rifampicin-lactose
composite
Rifampicin and lactose
retained crystalline structure.
Rifampicin
Recrystallisation and
spray drying Crystalline powder
Improved aerosolisation
properties, fine particle
fraction (FPF) 68%
Rifapentine
Crystallisation and
spray drying
Crystalline and
amorphous powder
High FPF of 83% and 69% for
crystalline and amorphous
powder, respectively.
...
Isoniazid
Supercritical fluid-
spray drying
Microparticles enriched
with leucine
Particle size within inhalable
range.
Aug 17, 2017 8
Drug Formulation Key outcome
Rifampicin+
IsoniazidPLA microparticles
Intra-alveolar drug concentration was higher
than drug alone formulation
Rifampicin +
Isoniazid +
PyrazinamidePLA nanoparticles
Single dose resulted in therapeutic levels in
plasma for 6-8 days and in lungs up to 11 days
Rifampicin +
Isoniazid +
Pyrazinamide
Crystalline spherical
microparticles
Combination drugs gave better stability than
individually spray-dried antibiotics
Table 2. Dry powder inhalers of anti-TB drug combinations.
Drug Formulation Key outcome
Rifampicin+
IsoniazidPLA microparticles
Intra-alveolar drug concentration was higher
than drug alone formulation
Rifampicin +
Isoniazid +
PyrazinamidePLA nanoparticles
Single dose resulted in therapeutic levels in
plasma for 6-8 days and in lungs up to 11 days
Rifampicin +
Isoniazid +
Pyrazinamide
Crystalline spherical
microparticles
Combination drugs gave better stability than
individually spray-dried antibiotics
Table 2. Dry powder inhalers of anti-TB drug combinations.
TECHNIQUES USED FOR PRODUCTION OF TECHNIQUES USED FOR PRODUCTION OF
ANTI-TB FORMULATIONSANTI-TB FORMULATIONS
Spray drying
Recrystallization and spray drying
Supercritical/near-critical microparticle formation
Freeze drying
Spray drying and freeze drying
Thin film hydration method
Emulsion/Lyophilization
Aug 17, 2017 9
ANTI-TB FORMULATIONSANTI-TB FORMULATIONS
Spray drying
Recrystallization and spray drying
Supercritical/near-critical microparticle formation
Freeze drying
Spray drying and freeze drying
Thin film hydration method
Emulsion/Lyophilization
Aug 17, 2017 9
APPROACHES FOR APPROACHES FOR DPIDPI FOR TUBERCULOSIS FOR TUBERCULOSIS
o High Dose Delivery
carrier-based dry powder inhalers
by high loading of microparticles
dry coating of drug with magnesium stearate
oTargeted Delivery to AM
PLGA microspheres
Liposomes
o Extended Release
Aug 17, 2017 10
o High Dose Delivery
carrier-based dry powder inhalers
by high loading of microparticles
dry coating of drug with magnesium stearate
oTargeted Delivery to AM
PLGA microspheres
Liposomes
o Extended Release
Aug 17, 2017 10
CHALLENGES FOR DEVELOPING CHALLENGES FOR DEVELOPING DPIDPI FOR FOR
TB PATIENTSTB PATIENTS
Although considerable research has involved a large
number of drugs to develop dry powder inhalers for treating
TB patients, there is no marketed anti-TB DPI as yet.
In both formulations and devices.
Aug 17, 2017 11
•Although the engineering of
particles has shown increased
dose delivery, more research
needs to be conducted to have
a powder which is stable and
offers high dispersion
capacity.
•There are challenges associated
with delivery devices. For
example, inconsistent delivery
from the device may result in
variability in available drugs at
the site of infection that may
lead to resistance.
TB PATIENTSTB PATIENTS
Although considerable research has involved a large
number of drugs to develop dry powder inhalers for treating
TB patients, there is no marketed anti-TB DPI as yet.
In both formulations and devices.
Aug 17, 2017 11
•Although the engineering of
particles has shown increased
dose delivery, more research
needs to be conducted to have
a powder which is stable and
offers high dispersion
capacity.
•There are challenges associated
with delivery devices. For
example, inconsistent delivery
from the device may result in
variability in available drugs at
the site of infection that may
lead to resistance.
CONCLUSIONCONCLUSION
Tuberculosis treatment has become complicated due to
the emergence of the MDR, XDR and TDR strains of
Mycobacterium tuberculosis.
Pulmonary delivery of anti-TB drugs is a method to
provide local high drug concentration with lower drug
dose compared to oral and parenteral doses.
Dry powder formulations for inhalation are more stable
than solutions or suspensions and are capable of delivering
the high doses of drugs required to treat TB.
Aug 17, 2017 12
Tuberculosis treatment has become complicated due to
the emergence of the MDR, XDR and TDR strains of
Mycobacterium tuberculosis.
Pulmonary delivery of anti-TB drugs is a method to
provide local high drug concentration with lower drug
dose compared to oral and parenteral doses.
Dry powder formulations for inhalation are more stable
than solutions or suspensions and are capable of delivering
the high doses of drugs required to treat TB.
Aug 17, 2017 12
REFERENCESREFERENCES
1.Shyamal Das, Ian Tucker and Peter Stewart. Inhaled Dry
Powder Formulations for Treating Tuberculosis. Current
Drug Delivery, 2015, 12, 26-39
2.A. Misra et al. review Inhaled drug therapy for treatment
of tuberculosis/Tuberculosis 91 (2011) 71e81.
3.Yadav A.B., Singh A.K., Verma R.K., Mohan M.,
Agrawal A.K., Misra A. The devil's advocacy: When and
why inhaled therapies for tuberculosis may not work.
Tuberculosis, 2011, 91, 65-66.
4.World Health Organization. Definitions and reporting
framework for tuberculosis revision. 2012.
Aug 17, 2017 13
1.Shyamal Das, Ian Tucker and Peter Stewart. Inhaled Dry
Powder Formulations for Treating Tuberculosis. Current
Drug Delivery, 2015, 12, 26-39
2.A. Misra et al. review Inhaled drug therapy for treatment
of tuberculosis/Tuberculosis 91 (2011) 71e81.
3.Yadav A.B., Singh A.K., Verma R.K., Mohan M.,
Agrawal A.K., Misra A. The devil's advocacy: When and
why inhaled therapies for tuberculosis may not work.
Tuberculosis, 2011, 91, 65-66.
4.World Health Organization. Definitions and reporting
framework for tuberculosis revision. 2012.
Aug 17, 2017 13
HAVE A NICE DAY
Aug 17, 2017 14
Aug 17, 2017 14
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