This systematic review aims to provide a comprehensive overview of the current status of mucosal drug delivery systems (MDDS) and explore their future prospects in drug delivery. MDDS have gained significant attention in recent years due to their potential to enhance drug absorption, improve therapeutic efficacy, and minimize systemic side effects. This review critically evaluates the existing literature on MDDS, including various mucosal routes such as oral, nasal, ocular, pulmonary, and vaginal delivery. Additionally, it discusses the challenges associated with MDDS, such as formulation development, stability, and regulatory considerations. Furthermore, this review highlights emerging technologies and innovative strategies that hold promise for the future of MDDS. Overall, this systematic review provides valuable insights into the current landscape of MDDS and offers recommendations for future research and development in this field.
THE CURRENT STATUS IN MUCOSAL DRUG DELIVERY SYSTEM (MDDS) AND FUTURE PROSPECT...RAHUL PAL
This systematic review aims to provide a comprehensive overview of the current status of
mucosal drug delivery systems (MDDS) and explore their future prospects in drug delivery.
MDDS have gained significant attention in recent years due to their potential to enhance drug
absorption, improve therapeutic efficacy, and minimize systemic side effects. This review
critically evaluates the existing literature on MDDS, including various mucosal routes such as
oral, nasal, ocular, pulmonary, and vaginal delivery. Additionally, it discusses the challenges
associated with MDDS, such as formulation development, stability, and regulatory
considerations. Furthermore, this review highlights emerging technologies and innovative
strategies that hold promise for the future of MDDS. Overall, this systematic review provides
valuable insights into the current landscape of MDDS and offers recommendations for future
research and development in this field.
The drug delivery technology has become vastly competitive and rapidly evolving. More and more developments in delivery systems are being assimilated to elevate the efficacy and cost effectiveness of the therapy. To govern the delivery rate of active pharmaceutical agents to a predetermined site inside the body has been one of the biggest challenges faced by the drug industry. Microsponge releases its active pharmaceutical ingredient in a time mode and also in response to other stimuli rubbing, temperature, pH, etc. . Microsponge drug delivery technology offers entrapment of active pharmaceutical ingredients and is believed to contribute towards reduced side effects, improved stability, increased elegance, and enhanced formulation flexibility. In addition, number of studies have confirmed that microsponges systems are non irritating, non mutagenic, non allergenic, and non toxic. Microsponge technology is being used currently in a wide range of formulations. Prajakta Shinde | Nilesh Bhosle | Vijay Munde "Microsponge: An Aeon in Therapeutics" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31840.pdf Paper Url :https://www.ijtsrd.com/pharmacy/pharmacoinformatics/31840/microsponge-an-aeon-in-therapeutics/prajakta-shinde
Novel Drug Delivery System An OverviewYogeshIJTSRD
In present scenario evolution of an existing drug molecule from a old form to a novel delivery system can significantly improve its performance in terms of patient compliance, safety and efficacy. In the form of a control drug delivery system an existing drug molecule can get a new life. An appropriately designed Novel Drug Delivery System can be a major advance for solving the problems related towards the release of the drug at specific site with specific rate. The porpuse for delivering drugs to patients efficiently and with fewer side effects has prompted pharmaceutical companies to engage in the development of new drug delivery system. This article covers the basic information regarding Novel Drug Delivery Systems and also advantages, factor etc. Chiranjit Barman | Dr. Gaurav Kumar Sharma | Dr. Kausal Kishore Chandrul "Novel Drug Delivery System: An Overview" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-5 , August 2021, URL: https://www.ijtsrd.com/papers/ijtsrd45068.pdf Paper URL: https://www.ijtsrd.com/pharmacy/novel-drug-delivery-sys/45068/novel-drug-delivery-system-an-overview/chiranjit-barman
Oral route is very appreciated and spacious route of a drug administration. Oral route of administration has been used for both conventional and novel drug delivery system. In the modern era, sustained release dosage form is defeating the use of conventional dosage form. The sustained release tablet provides uniform release of drug over a long period of time. Controlled release dosage form covers a wide range of prolonged action formulation which provides continuous release of their active ingredient at a predetermined rate and time. Sustained or controlled drug delivery system is to reduce the frequency of dosing or to increase the effectiveness of drug by localization at the site of action, reducing dose required, providing continuous drug delivery, reduce incidence of adverse effect and maintain drug concentration in system. This review focus on in-depth knowledge of matrix drug delivery system
Introduction, Definitions, Advantages and Disadvantages, Selection of drug candidates for designing controlled drug release systems and rationale biological and medical rationale
THE CURRENT STATUS IN MUCOSAL DRUG DELIVERY SYSTEM (MDDS) AND FUTURE PROSPECT...RAHUL PAL
This systematic review aims to provide a comprehensive overview of the current status of
mucosal drug delivery systems (MDDS) and explore their future prospects in drug delivery.
MDDS have gained significant attention in recent years due to their potential to enhance drug
absorption, improve therapeutic efficacy, and minimize systemic side effects. This review
critically evaluates the existing literature on MDDS, including various mucosal routes such as
oral, nasal, ocular, pulmonary, and vaginal delivery. Additionally, it discusses the challenges
associated with MDDS, such as formulation development, stability, and regulatory
considerations. Furthermore, this review highlights emerging technologies and innovative
strategies that hold promise for the future of MDDS. Overall, this systematic review provides
valuable insights into the current landscape of MDDS and offers recommendations for future
research and development in this field.
The drug delivery technology has become vastly competitive and rapidly evolving. More and more developments in delivery systems are being assimilated to elevate the efficacy and cost effectiveness of the therapy. To govern the delivery rate of active pharmaceutical agents to a predetermined site inside the body has been one of the biggest challenges faced by the drug industry. Microsponge releases its active pharmaceutical ingredient in a time mode and also in response to other stimuli rubbing, temperature, pH, etc. . Microsponge drug delivery technology offers entrapment of active pharmaceutical ingredients and is believed to contribute towards reduced side effects, improved stability, increased elegance, and enhanced formulation flexibility. In addition, number of studies have confirmed that microsponges systems are non irritating, non mutagenic, non allergenic, and non toxic. Microsponge technology is being used currently in a wide range of formulations. Prajakta Shinde | Nilesh Bhosle | Vijay Munde "Microsponge: An Aeon in Therapeutics" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31840.pdf Paper Url :https://www.ijtsrd.com/pharmacy/pharmacoinformatics/31840/microsponge-an-aeon-in-therapeutics/prajakta-shinde
Novel Drug Delivery System An OverviewYogeshIJTSRD
In present scenario evolution of an existing drug molecule from a old form to a novel delivery system can significantly improve its performance in terms of patient compliance, safety and efficacy. In the form of a control drug delivery system an existing drug molecule can get a new life. An appropriately designed Novel Drug Delivery System can be a major advance for solving the problems related towards the release of the drug at specific site with specific rate. The porpuse for delivering drugs to patients efficiently and with fewer side effects has prompted pharmaceutical companies to engage in the development of new drug delivery system. This article covers the basic information regarding Novel Drug Delivery Systems and also advantages, factor etc. Chiranjit Barman | Dr. Gaurav Kumar Sharma | Dr. Kausal Kishore Chandrul "Novel Drug Delivery System: An Overview" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-5 , August 2021, URL: https://www.ijtsrd.com/papers/ijtsrd45068.pdf Paper URL: https://www.ijtsrd.com/pharmacy/novel-drug-delivery-sys/45068/novel-drug-delivery-system-an-overview/chiranjit-barman
Oral route is very appreciated and spacious route of a drug administration. Oral route of administration has been used for both conventional and novel drug delivery system. In the modern era, sustained release dosage form is defeating the use of conventional dosage form. The sustained release tablet provides uniform release of drug over a long period of time. Controlled release dosage form covers a wide range of prolonged action formulation which provides continuous release of their active ingredient at a predetermined rate and time. Sustained or controlled drug delivery system is to reduce the frequency of dosing or to increase the effectiveness of drug by localization at the site of action, reducing dose required, providing continuous drug delivery, reduce incidence of adverse effect and maintain drug concentration in system. This review focus on in-depth knowledge of matrix drug delivery system
Introduction, Definitions, Advantages and Disadvantages, Selection of drug candidates for designing controlled drug release systems and rationale biological and medical rationale
Overview on Transdermal Drug Delivery Systemijtsrd
The transdermal drug delivery system is a technique that provides drug absorption via the skin. The system has many advantages over conventional administration routes such as intravenous or oral administration for systemic and local drug delivery with simple administration. It is available outside medical institutions, which decreases the burden on patients caused by intravenous administration and decreases loss from the first pass effect of the liver, delivering therapeutic drugs at a controlled ratio. Overcoming the skin barrier, including the stratum corneum and epidermal layer, is necessary to develop transdermal drug formulations. Although chemical and physical enhancers have been developed, they need high doses or high potency to exert efficiency, which induces irritation, causes damage, and reduces the skin barrier function. Mr. Rajvir Rajpurohit | Dr. Prashant Khade | Ms. Deepali Sagar | Ms. Pratiksha Sarode | Mr. Ravikiran Sarode "Overview on: Transdermal Drug Delivery System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-7 | Issue-3 , June 2023, URL: https://www.ijtsrd.com.com/papers/ijtsrd57458.pdf Paper URL: https://www.ijtsrd.com.com/pharmacy/pharmaceutics/57458/overview-on-transdermal-drug-delivery-system/mr-rajvir-rajpurohit
Targeted drug delivery to the respiratory system- An article Satyaki Mishra
This is an article (preview) on Pulmonary drug delivery system written for partial submission of Post-graduation assignment.. The study further helps in enhancing knowledge on target specific drug delivery system. If this article is of any help to you, kindly consider downloading it. You can drop your mail id in the comment section.
ABSTRACT
The main objective of present investigation is to formulate the sustained release tablet of Metoprolol Succinate
using 32 factorial design. Metoprolol Succinate, is a selective β1blocker, to treat Hypertension & Heart Failure. The
SR tablets of Metoprolol Succinate were prepared employing different concentrations of HPMCK15M and
HPMCK100M in different combinations as a rate retardants by Direct Compression technique using 32 factorial
design. The quantity of rate retarders, HPMCK15M and HPMCK100M required to achieve the desired drug release
was selected as independent variables, X1 and X2 respectively whereas, time required for 10% of drug dissolution
(t10%), 50% (t50%), 75% (t75%) and 90% (t90%) were selected as dependent variables. Totally nine formulations were
designed and are evaluated for hardness, friability, thickness, % drug content, In-vitro drug release. From the
Results it was concluded that all the formulation were found to be with in the Pharmacopoeial limits and the Invitro
dissolution profiles of all formulations were fitted in to different Kinetic models, the statistical parameters like
intercept (a), slope (b) & regression coefficient (r) were calculated. Polynomial equations were developed for t10%,
t50%, t75%, t90%. Validity of developed polynomial equations were verified by designing 2 check point formulations(C1,
C2). According to SUPAC guidelines the formulation (F5) containing combination of 10% HPMCK15M and 10%
HPMCK100M, is the most similar formulation (f2=92.38 & No significant difference, t= 0.0216) to marketed
product (Metocard). The selected formulation (F5) follows Higuchi’s kinetics, the mechanism of drug release was
found to be Super case II transport (Non-Fickian, n= 0.981).
. Recent Advances in Mucoadhesive Buccal Drug Delivery Systems and Its Marketed Scope and
Opportunities
K.P.Sampath Kumar ,DebjitBhowmik .AmitsankarDutta, Shravan Paswan, Lokesh Deb
Critical Review in Pharmaceutical Sciences 2012, 1(1):83-98.
ABSTRACT
The main objective of present investigation is to formulate the sustained release tablet of Zidovudine using 32
factorial design. Zidovudine, antiretroviral drug belongs to BCS Class I. The SR tablets of Zidovudine were
prepared employing different concentrations of Carboplol974P and Xanthan gum in different combinations as a
rate retardants by Direct Compression technique using 32 factorial design. The quantity of rate retarders,
Carboplol974P and Xanthan gum required to achieve the desired drug release was selected as independent
variables, X1 and X2 respectively whereas, time required for 10% of drug dissolution (t10%), 50% (t50%), 75% (t75%)
and 90% (t90%) were selected as dependent variables. Totally nine formulations were designed and are evaluated
for hardness, friability, thickness, % drug content, In-vitro drug release. From the Results it was concluded that all
the formulation were found to be with in the Pharmacopoeial limits and the In-vitro dissolution profiles of all
formulations were fitted in to different Kinetic models, the statistical parameters like intercept (a), slope (b) &
regression coefficient (r) were calculated. Polynomial equations were developed for t10%, t50%, t75%, t90%. Validity of
developed polynomial equations were verified by designing 2 check point formulations(C1, C2). According to
SUPAC guidelines the formulation (F5) containing combination of 5% Carboplol974P and 5% Xanthan gum, is the
most similar formulation (f2=85.04 & No significant difference, t= 0.20046) to marketed product (Retrovir). The
selected formulation (F5) follows Higuchi’s kinetics, the mechanism of drug release was found to be Case-II
transport or typical Zero order release (Non-Fickian, n= 0.915).
The term bioadhesive describes materials that bind to biological substrates, such as mucosal membranes and in bioadhesive drug delivery systems, the term bioadhesion is used to describe the bonding or adhesion between a synthetic or natural polymer and soft tissues such as epithelial cells. The bioadhesive drug delivery formulation highlights the fact that readily accessible sites are utilized with the eye, oral cavity and vegina being targeted. The GI tract and the nasal cavity have also been extensively examined as a site for bioadhesive drug delivery The prospect of writing this review article is to present comprehensive information related to mucoadhesion and mucoadhesive drug delivery systems. The article has highlighted all the aspects of mucoadhesive drug delivery systems which will be helpful for researches and academics. The article includes detailed information about mucosa the anatomy and physiology, the mechanisms and theories related to mucoadhesion, evaluation parameters of mucoadhesive dosage forms, mucoadhesive polymers and novel approaches related to mucoadhesive drug delivery system. The potential merits and demerits of mucoadhesive drug delivery as well as that of the polymers are also discussed. Vanitha G B | Mrs. S. Shyamla | Mr. S. Jeevanandham "Mucoadhesive Drug Delivery System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-2 , February 2022, URL: https://www.ijtsrd.com/papers/ijtsrd49267.pdf Paper URL: https://www.ijtsrd.com/pharmacy/other/49267/mucoadhesive-drug-delivery-system/vanitha-g-b
The main objective of present investigation is to formulate the floating tablets of
Ranitidine.HCl using 32 factorial design. Ranitidine.HCl, H2-receptor antagonist belongs to
BCS Class-III. The Floating tablets of Ranitidine.HCl were prepared employing different
concentrations of HPMCK4M and Guar Gum in different combinations as a release rate
modifiers by Direct Compression technique using 32 factorial design. The concentration of
Polymers , HPMCK4M and Guar Gum required to achieve desired drug release was selected
as independent variables, X1 and X2 respectively whereas, time required for 10% of drug
dissolution (t10%), 50% (t50%), 75% (t75%) and 90% (t90%) were selected as dependent variables.
Totally nine formulations were designed and are evaluated for hardness, friability, thickness,
% drug content, Floating Lag time, In-vitro drug release. From the Results concluded that all
the formulation were found to be within the Pharmacopoeial limits and the In-vitro
dissolution profiles of all formulations were fitted in to different Kinetic models, the
statistical parameters like intercept (a), slope (b) & regression coefficient (r) were calculated.
Polynomial equations were developed for t10%, t50%, t75%, t90%. Validity of developed
polynomial equations were verified by designing 2 check point formulations(C1, C2).
According to SUPAC guidelines the formulation (F5) containing combination of 22.5%
HPMCK4M and 22.5% Guar Gum, is the most similar formulation (similarity factor f2=85.01,
dissimilarity factor f1= 15.358 & No significant difference, t= 0.169) to marketed product
(ZANTAC). The selected formulation (F5) follows Higuchi’s kinetics, and the mechanism of
drug release was found to be Non-Fickian Diffusion (n= 0.922).
Niosome An Non-Ionic Surfactant Vesicles.pptxPrachi Pandey
Niosomes are nanosized vesicles composed of nonionic surfactants and cholesterol that form when these compounds are dispersed in an aqueous medium. These lipid-based structures are similar to liposomes but differ in their composition, as niosomes use nonionic surfactants instead of phospholipids. The unique characteristic of niosomes lies in their ability to encapsulate both hydrophilic and hydrophobic drugs within their bilayer membrane. This feature makes them promising candidates for drug delivery systems, as they can protect the encapsulated drug from degradation, prolong its release, and enhance its bioavailability. Additionally, niosomes offer advantages such as biocompatibility, stability, and ease of preparation, making them a versatile platform for targeted drug delivery and other biomedical applications.
Niosomes (Formulation and evaluation).pptxPrachi Pandey
Niosomes are a novel drug delivery system that encapsulates the medication in a vesicular system made up of non ionic surfactants.
The vesicle is made up of a bilayer of non-ionic surfactants, thus the name niosomes.
Niosomes are extremely small and microscopic (on a nanometric scale).
Despite having a similar structure to liposomes, they have several advantages over them.
Niosomes are biocompatible, nonimmunogenic, and biodegradable in nature and exhibit flexibility in their structured characterization
Based on the vesicle size, niosomes can be divided into three groups.
Small unilamellar vesicles (SUV, size=0.025-0.05 μm),
Multilamellar vesicles (MLV, size=>0.05 μm), and
Large unilamellar vesicles (LUV, size=>0.10 μm).
In the formulation of niosomes, the selection of surfactants is based on hydrophilic-lipophilic balance (HLB) value. HLB values between 4 and 8 recommended for the facile formation of niosomes and surfactants with an HLB value of more than 8 are required to optimize cholesterol concentration.
However, it has been widely observed that HLB value between 4 and 8 is highly recommended for better encapsulation efficiency, of niosomes. For example, long stearyl and short lauryl chain length increase and decrease the entrapment efficiency of niosomes, respectively.
Long hydrophilic chains result in increased encapsulation of hydrophilic drugs, and long hydrophobic chains result in improved encapsulation of lipophilic drugs.
Long Hydrophilic Chains and Increased Encapsulation of Hydrophilic Drugs:
Surfactants with longer hydrophilic chains create larger aqueous compartments within the niosome bilayer. This provides more space for water-soluble drugs to reside, leading to higher encapsulation efficiency.
Example: Span 60 (HLB 4.7) has a longer hydrophilic chain compared to Span 20 (HLB 8.6). Studies have shown that using Span 60 in niosomes resulted in significantly higher encapsulation efficiency of the hydrophilic drug gentamicin, compared to formulations using Span 20.
Long Hydrophobic Chains and Improved Encapsulation of Lipophilic Drugs:
Long hydrophobic chains increase the affinity of the niosome bilayer for lipid-soluble drugs. These drugs can partition and entrap themselves within the bilayer structure, leading to improved encapsulation.
Example: Tween 80 (HLB 15) has a longer hydrophobic chain compared to Tween 20 (HLB 16.7). Niosomes prepared with Tween 80 demonstrated superior encapsulation of the lipophilic drug curcumin compared to those made with Tween 20.
Pegylation is a process where polyethylene glycol (PEG), a biocompatible and hydrophilic polymer, is attached to the surface of niosomes. This modification offers several advantages for drug delivery:
Benefits of Pegylation:
Increased Stability: PEG creates a steric barrier, preventing proteins and other molecules in the blood from adhering to the niosome surface. This reduces aggregation and opsonization (recognition by immune cells).
More Related Content
Similar to THE CURRENT STATUS IN MUCOSALDRUG DELIVERY SYSTEM (MDDS)AND FUTURE PROSPECTUS INDELIVERY: A SYSTEMATIC REVIEW
Overview on Transdermal Drug Delivery Systemijtsrd
The transdermal drug delivery system is a technique that provides drug absorption via the skin. The system has many advantages over conventional administration routes such as intravenous or oral administration for systemic and local drug delivery with simple administration. It is available outside medical institutions, which decreases the burden on patients caused by intravenous administration and decreases loss from the first pass effect of the liver, delivering therapeutic drugs at a controlled ratio. Overcoming the skin barrier, including the stratum corneum and epidermal layer, is necessary to develop transdermal drug formulations. Although chemical and physical enhancers have been developed, they need high doses or high potency to exert efficiency, which induces irritation, causes damage, and reduces the skin barrier function. Mr. Rajvir Rajpurohit | Dr. Prashant Khade | Ms. Deepali Sagar | Ms. Pratiksha Sarode | Mr. Ravikiran Sarode "Overview on: Transdermal Drug Delivery System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-7 | Issue-3 , June 2023, URL: https://www.ijtsrd.com.com/papers/ijtsrd57458.pdf Paper URL: https://www.ijtsrd.com.com/pharmacy/pharmaceutics/57458/overview-on-transdermal-drug-delivery-system/mr-rajvir-rajpurohit
Targeted drug delivery to the respiratory system- An article Satyaki Mishra
This is an article (preview) on Pulmonary drug delivery system written for partial submission of Post-graduation assignment.. The study further helps in enhancing knowledge on target specific drug delivery system. If this article is of any help to you, kindly consider downloading it. You can drop your mail id in the comment section.
ABSTRACT
The main objective of present investigation is to formulate the sustained release tablet of Metoprolol Succinate
using 32 factorial design. Metoprolol Succinate, is a selective β1blocker, to treat Hypertension & Heart Failure. The
SR tablets of Metoprolol Succinate were prepared employing different concentrations of HPMCK15M and
HPMCK100M in different combinations as a rate retardants by Direct Compression technique using 32 factorial
design. The quantity of rate retarders, HPMCK15M and HPMCK100M required to achieve the desired drug release
was selected as independent variables, X1 and X2 respectively whereas, time required for 10% of drug dissolution
(t10%), 50% (t50%), 75% (t75%) and 90% (t90%) were selected as dependent variables. Totally nine formulations were
designed and are evaluated for hardness, friability, thickness, % drug content, In-vitro drug release. From the
Results it was concluded that all the formulation were found to be with in the Pharmacopoeial limits and the Invitro
dissolution profiles of all formulations were fitted in to different Kinetic models, the statistical parameters like
intercept (a), slope (b) & regression coefficient (r) were calculated. Polynomial equations were developed for t10%,
t50%, t75%, t90%. Validity of developed polynomial equations were verified by designing 2 check point formulations(C1,
C2). According to SUPAC guidelines the formulation (F5) containing combination of 10% HPMCK15M and 10%
HPMCK100M, is the most similar formulation (f2=92.38 & No significant difference, t= 0.0216) to marketed
product (Metocard). The selected formulation (F5) follows Higuchi’s kinetics, the mechanism of drug release was
found to be Super case II transport (Non-Fickian, n= 0.981).
. Recent Advances in Mucoadhesive Buccal Drug Delivery Systems and Its Marketed Scope and
Opportunities
K.P.Sampath Kumar ,DebjitBhowmik .AmitsankarDutta, Shravan Paswan, Lokesh Deb
Critical Review in Pharmaceutical Sciences 2012, 1(1):83-98.
ABSTRACT
The main objective of present investigation is to formulate the sustained release tablet of Zidovudine using 32
factorial design. Zidovudine, antiretroviral drug belongs to BCS Class I. The SR tablets of Zidovudine were
prepared employing different concentrations of Carboplol974P and Xanthan gum in different combinations as a
rate retardants by Direct Compression technique using 32 factorial design. The quantity of rate retarders,
Carboplol974P and Xanthan gum required to achieve the desired drug release was selected as independent
variables, X1 and X2 respectively whereas, time required for 10% of drug dissolution (t10%), 50% (t50%), 75% (t75%)
and 90% (t90%) were selected as dependent variables. Totally nine formulations were designed and are evaluated
for hardness, friability, thickness, % drug content, In-vitro drug release. From the Results it was concluded that all
the formulation were found to be with in the Pharmacopoeial limits and the In-vitro dissolution profiles of all
formulations were fitted in to different Kinetic models, the statistical parameters like intercept (a), slope (b) &
regression coefficient (r) were calculated. Polynomial equations were developed for t10%, t50%, t75%, t90%. Validity of
developed polynomial equations were verified by designing 2 check point formulations(C1, C2). According to
SUPAC guidelines the formulation (F5) containing combination of 5% Carboplol974P and 5% Xanthan gum, is the
most similar formulation (f2=85.04 & No significant difference, t= 0.20046) to marketed product (Retrovir). The
selected formulation (F5) follows Higuchi’s kinetics, the mechanism of drug release was found to be Case-II
transport or typical Zero order release (Non-Fickian, n= 0.915).
The term bioadhesive describes materials that bind to biological substrates, such as mucosal membranes and in bioadhesive drug delivery systems, the term bioadhesion is used to describe the bonding or adhesion between a synthetic or natural polymer and soft tissues such as epithelial cells. The bioadhesive drug delivery formulation highlights the fact that readily accessible sites are utilized with the eye, oral cavity and vegina being targeted. The GI tract and the nasal cavity have also been extensively examined as a site for bioadhesive drug delivery The prospect of writing this review article is to present comprehensive information related to mucoadhesion and mucoadhesive drug delivery systems. The article has highlighted all the aspects of mucoadhesive drug delivery systems which will be helpful for researches and academics. The article includes detailed information about mucosa the anatomy and physiology, the mechanisms and theories related to mucoadhesion, evaluation parameters of mucoadhesive dosage forms, mucoadhesive polymers and novel approaches related to mucoadhesive drug delivery system. The potential merits and demerits of mucoadhesive drug delivery as well as that of the polymers are also discussed. Vanitha G B | Mrs. S. Shyamla | Mr. S. Jeevanandham "Mucoadhesive Drug Delivery System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-2 , February 2022, URL: https://www.ijtsrd.com/papers/ijtsrd49267.pdf Paper URL: https://www.ijtsrd.com/pharmacy/other/49267/mucoadhesive-drug-delivery-system/vanitha-g-b
The main objective of present investigation is to formulate the floating tablets of
Ranitidine.HCl using 32 factorial design. Ranitidine.HCl, H2-receptor antagonist belongs to
BCS Class-III. The Floating tablets of Ranitidine.HCl were prepared employing different
concentrations of HPMCK4M and Guar Gum in different combinations as a release rate
modifiers by Direct Compression technique using 32 factorial design. The concentration of
Polymers , HPMCK4M and Guar Gum required to achieve desired drug release was selected
as independent variables, X1 and X2 respectively whereas, time required for 10% of drug
dissolution (t10%), 50% (t50%), 75% (t75%) and 90% (t90%) were selected as dependent variables.
Totally nine formulations were designed and are evaluated for hardness, friability, thickness,
% drug content, Floating Lag time, In-vitro drug release. From the Results concluded that all
the formulation were found to be within the Pharmacopoeial limits and the In-vitro
dissolution profiles of all formulations were fitted in to different Kinetic models, the
statistical parameters like intercept (a), slope (b) & regression coefficient (r) were calculated.
Polynomial equations were developed for t10%, t50%, t75%, t90%. Validity of developed
polynomial equations were verified by designing 2 check point formulations(C1, C2).
According to SUPAC guidelines the formulation (F5) containing combination of 22.5%
HPMCK4M and 22.5% Guar Gum, is the most similar formulation (similarity factor f2=85.01,
dissimilarity factor f1= 15.358 & No significant difference, t= 0.169) to marketed product
(ZANTAC). The selected formulation (F5) follows Higuchi’s kinetics, and the mechanism of
drug release was found to be Non-Fickian Diffusion (n= 0.922).
Niosome An Non-Ionic Surfactant Vesicles.pptxPrachi Pandey
Niosomes are nanosized vesicles composed of nonionic surfactants and cholesterol that form when these compounds are dispersed in an aqueous medium. These lipid-based structures are similar to liposomes but differ in their composition, as niosomes use nonionic surfactants instead of phospholipids. The unique characteristic of niosomes lies in their ability to encapsulate both hydrophilic and hydrophobic drugs within their bilayer membrane. This feature makes them promising candidates for drug delivery systems, as they can protect the encapsulated drug from degradation, prolong its release, and enhance its bioavailability. Additionally, niosomes offer advantages such as biocompatibility, stability, and ease of preparation, making them a versatile platform for targeted drug delivery and other biomedical applications.
Niosomes (Formulation and evaluation).pptxPrachi Pandey
Niosomes are a novel drug delivery system that encapsulates the medication in a vesicular system made up of non ionic surfactants.
The vesicle is made up of a bilayer of non-ionic surfactants, thus the name niosomes.
Niosomes are extremely small and microscopic (on a nanometric scale).
Despite having a similar structure to liposomes, they have several advantages over them.
Niosomes are biocompatible, nonimmunogenic, and biodegradable in nature and exhibit flexibility in their structured characterization
Based on the vesicle size, niosomes can be divided into three groups.
Small unilamellar vesicles (SUV, size=0.025-0.05 μm),
Multilamellar vesicles (MLV, size=>0.05 μm), and
Large unilamellar vesicles (LUV, size=>0.10 μm).
In the formulation of niosomes, the selection of surfactants is based on hydrophilic-lipophilic balance (HLB) value. HLB values between 4 and 8 recommended for the facile formation of niosomes and surfactants with an HLB value of more than 8 are required to optimize cholesterol concentration.
However, it has been widely observed that HLB value between 4 and 8 is highly recommended for better encapsulation efficiency, of niosomes. For example, long stearyl and short lauryl chain length increase and decrease the entrapment efficiency of niosomes, respectively.
Long hydrophilic chains result in increased encapsulation of hydrophilic drugs, and long hydrophobic chains result in improved encapsulation of lipophilic drugs.
Long Hydrophilic Chains and Increased Encapsulation of Hydrophilic Drugs:
Surfactants with longer hydrophilic chains create larger aqueous compartments within the niosome bilayer. This provides more space for water-soluble drugs to reside, leading to higher encapsulation efficiency.
Example: Span 60 (HLB 4.7) has a longer hydrophilic chain compared to Span 20 (HLB 8.6). Studies have shown that using Span 60 in niosomes resulted in significantly higher encapsulation efficiency of the hydrophilic drug gentamicin, compared to formulations using Span 20.
Long Hydrophobic Chains and Improved Encapsulation of Lipophilic Drugs:
Long hydrophobic chains increase the affinity of the niosome bilayer for lipid-soluble drugs. These drugs can partition and entrap themselves within the bilayer structure, leading to improved encapsulation.
Example: Tween 80 (HLB 15) has a longer hydrophobic chain compared to Tween 20 (HLB 16.7). Niosomes prepared with Tween 80 demonstrated superior encapsulation of the lipophilic drug curcumin compared to those made with Tween 20.
Pegylation is a process where polyethylene glycol (PEG), a biocompatible and hydrophilic polymer, is attached to the surface of niosomes. This modification offers several advantages for drug delivery:
Benefits of Pegylation:
Increased Stability: PEG creates a steric barrier, preventing proteins and other molecules in the blood from adhering to the niosome surface. This reduces aggregation and opsonization (recognition by immune cells).
Non-ionic surfactant vesicles, commonly referred to as niosomes, have garnered significant attention within the pharmaceutical industry due to their remarkable capacity to encapsulate both hydrophilic and hydrophobic drugs. Recent studies have demonstrated the potential of these vesicles to enhance the bioavailability of drugs, making them a promising strategy for delivering various therapeutic agents such as gene materials, protein therapeutics, and chemical pharmaceuticals. This approach offers minimal toxicity and desirable targeting effectiveness. Niosomes are substantially more stable during the preparation and storage procedure than liposomes. The desired pharmacokinetics property can be attained through the optimization of constituents or surface modifications. This novel method of distribution is also facile to establish and expand, while maintaining cost-effective manufacturing expenses. This review article elucidates the fundamentals of niosomes as non-ionic surfactant vesicles, including their structure and components, as well as various formulation methods. Additionally, the article explores the diverse applications of niosomal in the analgesics.
The Application of Response Surface Methodology (RSM) In the Computational Op...Prachi Pandey
Introduction: This study explores the use of Response Surface Methodology (RSM), a statistical optimization technique, to optimize the SR properties of prochlorperazine maleate (PCM) matrix tablets. PCM is a phenothiazine derivative used for treating schizophrenia, nausea, and vomiting. Sustained-release formulations offer extended drug delivery, potentially improving patient compliance and reducing side effects. RSM helps identify optimal combinations of critical formulation factors influencing drug release, such as polymer type and concentration, filler type, and drug/polymer ratio. The study likely involves designing experiments based on chosen RSM designs (e.g., Box-Behnken) with varying factor levels. Formulate SR tablets with different factor combinations. Evaluating the drug release profiles of each tablet formulation. Analyzing data using RSM software to build mathematical models relating factors to drug release and identifying optimal factor combinations that maximize desired release characteristics.
Objective: The ongoing research purpose to improve the advancement of a sustained release tablet containing Phenothiazine derivative PCM loaded matrix. This is achieved by utilizing DoE as a computational method to statistically validate the formulation.
The Utilization of 32 Full Factorial Design (FFD) for Optimization of Linco...Prachi Pandey
Objectives: The ongoing research aims to enhance the development of LNH-loaded nanogel by
utilizing DoE as the computational method to statistically validate their formulation.
Methodology: In this research Chitosan used as a natural polymer and Poly (Ethylene glycol)
[PEG] as a penetration or permeation enhancer. The different nanogel of LNH were synthesized
using the Nanoprecipitation and Dispersion method, with variations in the drug-polymer ratio
(1/0.03, 1/0.08, 1/0.12). The process parameters were carefully optimizing for enhance the
efficiency of the synthesis. To achieve this, optimization studies were conducted using 3² FFD,
employing the Design Expert Software Trial version 10.0.7. The total of 13 runs were generated to
ensure comprehensive analysis and evaluation of the procedure. The selected independent
variables included the concentration of Chitosan (R1) and Carbopol 934 (R2). The dependent
variables, on the other hand, were particle size (P1), Polydispersity Index (P2), and % Drug release
(P3), chosen in that order. By employing this optimization technique, one can acquire valuable
information in a manner that is both efficient and cost-effective. This approach facilitates a deeper
comprehension of the relationship between controllable independent variables and the performance
and quality of the Nanogels being produced
Determination of Partition coefficient of Known and Unknown drug.pdfPrachi Pandey
Partition coefficient, often denoted as P or P_oct, is a measure of how a solute distributes between two immiscible (unmixable) solvents. It is commonly used in chemistry, biochemistry, and pharmacology to understand the distribution of a compound between different phases, such as between a hydrophobic organic solvent and water. In experimental settings, the partition coefficient is determined by measuring the concentrations of the solute in each phase. The values obtained provide insights into the solute's behavior and can guide decisions in various scientific and industrial processes.
Pharmaceutical Suspension Dosage Form (PPT)Prachi Pandey
A pharmaceutical suspension is a heterogeneous system in which finely divided solid particles are dispersed in a liquid medium. Unlike solutions, where solutes are completely dissolved, suspensions involve particles that are only partially soluble or insoluble in the liquid. These suspensions are commonly used in the pharmaceutical industry to deliver medications that may be poorly soluble or unstable in their pure form. The solid particles, often in the form of powders or crystals, are dispersed throughout the liquid phase, creating a stable mixture through the use of suspending agents or stabilizers. These agents prevent the settling of particles, ensuring uniform distribution and ease of redispersion upon shaking before administration. Pharmaceutical suspensions offer advantages in terms of flexibility in dosing and formulation, enabling the delivery of therapeutic agents in various forms such as oral liquids, injectables, or topical preparations, enhancing patient compliance and therapeutic efficacy. The formulation and stability of pharmaceutical suspensions require careful consideration of factors such as particle size, density, and the choice of stabilizers to maintain a consistent and reliable product.
Suppositories and pessaries are both types of medication delivery systems that are designed to be inserted into body orifices for therapeutic purposes. While they serve similar functions, they are used in different parts of the body.
Suppositories:
Usage: Suppositories are typically designed for rectal or vaginal administration.
Composition: They are solid, bullet-shaped or cone-shaped dosage forms that contain medication in a base that melts or dissolves at body temperature.
Rectal Suppositories: Commonly used for medications that need to bypass the digestive system or when a patient cannot take medications orally. They are inserted into the rectum.
Vaginal Suppositories: Often used for localized treatment of gynecological conditions, such as yeast infections or hormonal therapy. They are inserted into the vagina.
Pessaries:
Usage: Pessaries are specifically designed for vaginal administration.
Composition: They are solid, oval-shaped or ring-shaped devices made of various materials such as silicone, rubber, or plastic.
Indications: Pessaries are mainly used to support the uterus, bladder, or rectum in cases of pelvic organ prolapse. However, they can also be used for the controlled release of medication into the vagina for the treatment of local conditions.
Maintenance: Pessaries need to be fitted by a healthcare professional and should be cleaned and reinserted regularly.
Partition coefficients are a fascinating and important concept in many fields, from chemistry and environmental science to medicine and pharmacology. They tell us about how a substance will distribute itself between two immiscible phases, like how a drug might move between your blood and tissues, or how a pollutant might spread through soil and water.
A partition coefficient, denoted as P or log P, describes the ratio of the concentration of a compound in one phase (usually organic) to its concentration in another phase (often water) at equilibrium.
Higher values of P indicate a greater preference for the organic phase, meaning the compound is more lipophilic (fat-loving).
Lower values of P suggest a higher affinity for the aqueous phase, implying the compound is more hydrophilic (water-loving).
Research Methodology_UNIT_V_Declaration of Helsinki M. Pharm (IIIrd Sem.)Prachi Pandey
Declaration of Helsinki: History, introduction, basic principles for all medical research, and additional principles for medical research combined with medical care.
Research Methodology_UNIT_I_General Research Methodology M. Pharm (IIIrd Sem.)Prachi Pandey
General Research Methodology: Research, objective, requirements, practical
difficulties, review of literature, study design, types of studies, strategies to eliminate
errors/bias, controls, randomization, crossover design, placebo, blinding techniques.
Research Methodology (M. Pharm, IIIrd Sem.)_UNIT_IV_CPCSEA Guidelines for Lab...Prachi Pandey
CPCSEA guidelines for laboratory animal facility: Goals, veterinary care, quarantine,
surveillance, diagnosis, treatment and control of disease, personal
hygiene, location of animal facilities to laboratories, anesthesia, euthanasia, physical facilities, environment, animal husbandry, record keeping, SOPs, personnel and
training, transport of lab animals.
Operations management is an area of management concerned with designing and controlling the process of production and redesigning business operations in the production of goods or services.
The application for Registration and import can be made to the Licensing Authority under the Act i.e. to the Drugs Controller General at CDSCO. Drug and Cosmetic Act 1945: It Contains provisions for classification of drugs under given schedules. Guidelines for the storage,sale,display and prescription of each schedule.
Microspheres are small spherical particles, with diameter 1 µm to 1000 µm.
They are spherical free flowing particles consisting of proteins or synthetic polymers which are biodegradable in nature.
PROTEINS: Proteins are the large organic compounds made of amino acids arranged in a linear chain and joined together by peptide bonds.
Protein > 50 amino acids
PEPTIDES: These are short polymers formed from the linking, in a defined order of amino acids.
Peptide < 50 amino acids
Three-dimensional (3-D) printing is elevating various growth in production viewpoint both at nanoscale and macro-scales. 3-D printing is being scouted for numerous bio-pharmaceutical administration and creation of nano-medicines employing supplementary production methods and shows assurance in capability in satisfying the demands for a patient-based customized approach. The previous outcome features the accessibility of novel natural bio-materials and finely designed polymeric substances, which can be created as unique 3-D printed nano-materials for numerous bio-pharmaceutical administrations as nano-medicines. Nano-medicine is described as the utilization of nanoscience in fabricating nano-materials for various pharmaceutical utilization, comprising identification, cure, scan, stopping, and management of diseases. Nano-medicine has also displayed a huge effect in the creation and evolve an accurate drug. In contrary the "one-size-fits-all" benchmark for the traditional drug is a personalized, structured, or accurate drug considering the variation in numerous characteristics, comprising genetics and pharmacokinetics of various victims, which have exhibited better outcomes over traditional cures. This article highlights the approaches advancements in the design and development of customized-made nano-medicine employing 3-D printing science.
TOTAL QUALITY MANAGEMENT, BUDGET & COST CONTROL.pptxPrachi Pandey
Definition: TQM has been defined as an integrated organization effort designed to improve quality at every level.
“ The process to produce a perfect product by a series of measures require an organized effort by the entire company to prevent or eliminate errors at every stage in production is called Total Quality Management (TQM).”
The Aim of TQM is “Prevention of defect rather than detection on defect.”
TQM is very important for pharmaceutical industries to produce the better product and ensure the maximum safety of health care system and also protect waste of money for both government and individual customer.
The word pharmacy is derived from the Greek word “Pharmakon”, meaning medicine or drug. In other term, “Pharmacy may defined as the art and science of preparing (manufacturing) and dispensing of drugs prepared by the natural and synthetic sources and using for the treatment as well as prevention of diseases”. In general sense, it is the place where medicine or drugs are sold. Pharmacy is a health profession that links health science with chemical science and aims to ensure the safe and effective use of pharmaceutical drugs. It includes the collection, identification, synthesis, purification, isolation and quality control of medical substance or pharmaceutical products.
Acetabularia Information For Class 9 .docxvaibhavrinwa19
Acetabularia acetabulum is a single-celled green alga that in its vegetative state is morphologically differentiated into a basal rhizoid and an axially elongated stalk, which bears whorls of branching hairs. The single diploid nucleus resides in the rhizoid.
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
Honest Reviews of Tim Han LMA Course Program.pptxtimhan337
Personal development courses are widely available today, with each one promising life-changing outcomes. Tim Han’s Life Mastery Achievers (LMA) Course has drawn a lot of interest. In addition to offering my frank assessment of Success Insider’s LMA Course, this piece examines the course’s effects via a variety of Tim Han LMA course reviews and Success Insider comments.
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
Unit 8 - Information and Communication Technology (Paper I).pdfThiyagu K
This slides describes the basic concepts of ICT, basics of Email, Emerging Technology and Digital Initiatives in Education. This presentations aligns with the UGC Paper I syllabus.
Normal Labour/ Stages of Labour/ Mechanism of LabourWasim Ak
Normal labor is also termed spontaneous labor, defined as the natural physiological process through which the fetus, placenta, and membranes are expelled from the uterus through the birth canal at term (37 to 42 weeks
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
THE CURRENT STATUS IN MUCOSALDRUG DELIVERY SYSTEM (MDDS)AND FUTURE PROSPECTUS INDELIVERY: A SYSTEMATIC REVIEW
1. See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/374951332
THE CURRENT STATUS IN MUCOSALDRUG DELIVERY SYSTEM (MDDS)AND
FUTURE PROSPECTUS INDELIVERY: A SYSTEMATIC REVIEW
Article in International Journal of Pharmaceutical Sciences and Medicine · October 2023
DOI: 10.47760/ijpsm.2023.v08i10.007
CITATIONS
0
READS
88
3 authors, including:
Prachi Pandey
NIMS University
94 PUBLICATIONS 4 CITATIONS
SEE PROFILE
Rahul Pal
NIMS University
101 PUBLICATIONS 6 CITATIONS
SEE PROFILE
All content following this page was uploaded by Rahul Pal on 25 October 2023.
The user has requested enhancement of the downloaded file.