Role of Analytical Techniques in the Standardization of A Dermoprotective Polyherbal Formulation – Dermoshine

Plants have long been used in the cosmetic industry as amongst others, skin lighteners and sun-screen agents are play a definite role. In vitro scientific studies have shown that plants possess the ability to reduce antioxidant levels and inhibit hyaluronidase, collagenase, elastase and tyrosinase activity [1-3]. Collagen, one of the major building blocks of the skin, is the main component of connective tissue, hair and nails [4]. It is responsible for the elasticity and strength of the skin and maintains its flexibility. Hyaluronic acid has the capacity in retaining the moisture of the skin, as well as its structure and elasticity. It also facilitates the exchange of nutrients and waste products and is involved in rapid tissue proliferation, regeneration and repair [1, 5].


Introduction
Plants have long been used in the cosmetic industry as amongst others, skin lighteners and sun-screen agents are play a definite role.In vitro scientific studies have shown that plants possess the ability to reduce antioxidant levels and inhibit hyaluronidase, collagenase, elastase and tyrosinase activity [1][2][3].Collagen, one of the major building blocks of the skin, is the main component of connective tissue, hair and nails [4].It is responsible for the elasticity and strength of the skin and maintains its flexibility.Hyaluronic acid has the capacity in retaining the moisture of the skin, as well as its structure and elasticity.It also facilitates the exchange of nutrients and waste products and is involved in rapid tissue proliferation, regeneration and repair [1,5].
At present situation number of external products is available for various skin disorders but limited formulations are utilized internally.For curing skin disorders not only external but also internal drugs are required, which give better results in combination.Based on this background we have formulated a polyherbal formulation which acts as antioxidant, antiaging, antiwrinkling, skin whitening, antiacne and antidandruff activity.The polyherbal formulation was formulated for dermoprotective activity by using traditional medicinal plants such as Andrographis paniculata (whole plant), Aristolochia bracteata (Leaves) Phyllanthus amarus (Whole plant), Azadirachta indica (Leaves) Curcuma longa (Rhizome) and Hemidesmus indicus (Root) Standardization is an important aspect for maintaining and assessing the quality and safety of the polyherbal formulation as they are combinations of more than one herb to attain the desired therapeutic effect [6].Standardization minimizes batch to batch variation; assure safety, efficacy, quality and acceptability of the polyherbal formulations [7].
The present study was undertaken to develop a quality control parameters for a marketed dermoprotective polyherbal by using various organoleptic and physiochemical parameters specified by Ayurveda, Siddha pharmacopoeias and WHO guidelines [8,9].The formulation was manufactured by Rumi Herbals Pvt.Ltd, a GMP certified company and marketed by Rohini Global Marketing Pvt Ltd.Chennai.

Microbial Safety Profile:
All the raw materials must be free from microbial contamination.It is the major safety parameter to ensure the product quality.Microbial screening was carried out to estimate the number of viable microorganisms present in the material.Various differential and selective medias were utilized for screening microbial contamination.For Total viable count (Casein soyabean digest agar), Total yeast and moulds (Saboraud's dextrose agar with antibiotics), E.coli (MaConkey agar and EMB agar), Salmonella (Brilliant Green agar) Staphylococcus sp.(Mannitol salt agar) Pseudomonas aeruginosa, (Cetrimide agar) was used to screen the organisms as per the AYUSH guidelines.

Development Of Quality Control Parameters For Dermoshine
Composition And Preparation Of Capsule: All the plant materials as mentioned above were mixed thoroughly using butterfly mixture and made 500 mg of polyherbal hard gelatin capsule ('0'size) by using semi-automated capsule filling machine.
Organoleptic Characters: Texture, Color, Odor And Taste Were Assessed By Using Sensory Organs pH: After preparing 5% solution of the finished product, the pH was checked by using digital pH meter.

Microscopic Characteristics:
The powdered materials were spread as thin film on glass slide and observed the shape of the granules under microscope.
Observations Under UV Light: The materials were mixed with 10% NaOH & 5% HCl and observed under UV light at 254 nm and also observed without adding above constituents.Drug Content Uniformity: Test for drug content was carried out as per IP.20 capsules were taken and emptied their content in a mortar and pestle and ground to fine powder; from this 500mg of powder was taken into a volumetric flask and diluted with phosphate buffer (pH 6.8).The absorbance of the solution was measured at 213 nm by using UV-Visible spectrophotometer (Systronics, UV-Vis Spectrophotometer) [13].

Weight Variation
Disintegration: This test is useful as a quality assurance tool for conventional dosage forms.The efficacy of a drug can be dependent on the rate which the capsule disintegrates in the patient's gastrointestinal tract.The disintegration test is a measure of the time required under a given set of conditions for six randomly selected capsules to disintegrate into particles which will pass through a 10 mesh screen with in a disintegration assembly at maintained temperature 37±2ºC.Disintegration test was performed using the disintegration test apparatus [14].
Flow Properties: Flow properties of drug indicate the uniformity of the granules and it is useful for proper filling and clinical application.The following methods like Angle of repose, Bulk density, Tapped density, Carr`s index, Hausner's ratio and porosity was assessed by standard methods Angle Of Repose: A funnel was fixed at a particular height on a burette stand.A white paper was placed below the funnel on the table.The powdered drug (5g) passed slowly through the funnel until it forms a pile.The radius of the pile was noted down.Angle of repose of the powder material was calculated by using the formula: tan θ = h/r; θ = tan (h/r) where, h = height of the pile, r = radius.

Role of Analytical Techniques in the Standardization of A Dermoprotective Polyherbal Formulation -Dermoshine
Copyright: © 2015 Meena Bulk Density (D0): 25 g of accurately weighed powder was poured into a graduated cylinder, powder bed was made uniform without disturbing the cylinder and the volume was measured directly from the graduation mark on the cylinder as ml [15]

Test For Heavy Metals Preparation Of Samples By Acid Digestion Method:
Accurately weighed 2 g of sample was taken in Kjeldahl flask.Acid mixture of HNO 3: HClO 4 (4:1) was added in the flask and heated continuously till the solution is colourless.The sample was then transferred to a 25 ml volumetric flask and the volume was made-up with distilled water.Reagent blank was synchronously prepared according to the above procedure.The standards of lead (Pb), cadmium (Cd), arsenic (As) and mercury (Hg) were prepared as per the protocol in the manual.The samples were analyzed for the presence of Pb, Cd, As and Hg using Atomic Absorbance Spectrophotometer (AAS) 6300 (by SHIMADZU) (Lohar, 2007).

Results And Discussion
Polyherbal formulations can be better than any single chemical entity in many medical conditions.The multi-valent and multi-target actions of mixture of phytochemicals and standardized extracts could provide therapeutic superiority compared to single drug.Now, it is increasingly recognized that, in most disease conditions (e.g.arthritis, liver diseases, radiation induced injuries, old age related diseases and diabetes mellitus), combination therapy is more suitable compared to monosubstance therapy.It is considered that complex physiological processes of the body can be influenced more effectively with less adverse side effects by a combination of several low dose compounds than by a single high dose compound [16] Various types of herbal medicines have been used as curative agents in different parts of the world [17].Drugs derived from various plant materials may have possible therapeutic relevance in the treatment of illness [18].
In the present study Dermoshine has been taken for the development of quality control parameters as per Ayurveda, Siddha & Indian pharmacopeias, followed by AYUSH and WHO guidelines.

Raw Materials Identity And Purity
All the raw materials were screened individually for its identity & purity and the specifications found within the limits (Table -1).Ash contents are less than the standard value, which indicates the less contamination.Moisture content found to be less than 5% which is a good indicator for less susceptibility for microbial contamination.Microbial screening was within specified limits and this shows the cleanliness of raw material and good storage practice in the manufacturing premises.[11].

Microbial Screening Of Dermoshine Capsule
The Microbial Screening Results Of The Formulation Were Given In Table 4.The Total Aerobic, Yeast And Mould Count Were Found To Be 100cfu/G And 10cfu/G Respectively.Remaining Microbes Like Escherichia Coli, Salmonella Sp.Staphylococcus Aureus Pseudomonas Aeruginosa Were Found Absent.

Heavy Metals Screening Of Dermoshine Capsule
Screening of heavy metals in traditional system of medicine is an important criterion for the sake of prevention of heavy metal  toxicity.Their presence will cause toxic effect in the body and also causes some genetic variations [19].Therefore, the formulation was checked for the presence of heavy metal contents namely Pb, Cd, As and Hg and the results were shown in Table 5.The results indicated that none of the heavy metals detected, exceed their respective permitted level.

Role of Analytical Techniques in the Standardization of A Dermoprotective Polyherbal Formulation -Dermoshine
Copyright: © 2015 Meena

Conclusion
The present investigation was carried out to develop quality control parameters for a dermoprotective polyherbal formulation Dermoshine.All the raw materials were analysed for its quality, based on the specifications given by Ayurvedic Pharmacopeia of India, Department of AYUSH and WHO guidelines.The results of the product indicate good quality and meet the requirements.Finished product as hard gelatin capsule was evaluated by pharmacopeial and non-pharmacopeial parameters which were found to be good flow properties; microbial and heavy metal screening found within the specified limits.Further research on marker Compounds analysis, Toxicological and Pharmacological evaluation is in progress.

Test:
Test For Uniformity Of Weight Was Performed As Per IP 2007.Randomly Selected 20 Capsules Were Weighed (Individually And Together).The Average Weight Variation And The Standard Deviation Were Calculated.
. The volume measured was bulk volume and bulk density is calculated.After Measuring D0 Same Cylinder Was Set To Measure Tapped Density [15].The Cylinder Was Tapped With 100 Tap Drop/Minute And Operated For 500 Taps.Volume Was Noted As Va, Tapping Was Done Again For 750 Times And Final Volume Was Noted As Vb.The Difference Between Va And Vb Was Calculated And When It Was Found To Be Not More Than 2 %, Then Vb Was Considered As Final Tapped Volume And Tapped Density Was Calculated Using The Following Formula Compressibility Indices: The bulk and tapped densities were used to calculate the compressibility indices (Carr's index and Hausner's ratio) which provide the flow properties and compressibility of powders.Microbial analysis was carried for capsule as per procedures of IP 2007 and WHO Guideline.The test included total bacterial count, total yeast and mould count, identification of specified organism such as Escherichia coli, Salmonella sp., Staphylococcus aureus and Pseudomonas aeruginosa.
The Capsule Was Evaluated By Different Pharmacopeial And Non-Pharmacopeial, Physicochemical Tests Such As Organoleptic Characters, Ph, Flow Properties, Weight Variation, Moisture Analysis, Drug Content Uniformity And Disintegration.The Ph Of 5% W/V Solution Was 5.53 And Other Physiocochemical Properties Of The Finished Products Were Also Carried Out (Table-2).The IP Limit For Weight Variation In Case Of Capsule Weighing More Than 300 Mg Is ± 5%.The Result Shows The Weight Variation of Liverem Capsules Found To Be Within The IP Limit.The Moisture Content Was Less Than 5%; The Drug Content Uniformity Also Found Within IP Limit.The Disintegration Time Was Found To Be An Average Of 5 Min & 45 Sec.Flow Properties Like Bulk Density, Tapped Density, Hausner's Ratio, Carr`S Index And Angle Of Repose Were Found To Be 0.92 G/Cm 3 , 1.02g/Cm 3 , 1.10, 9.80 And 34.6 o Respectively.(Table-3).Value Of Carr's Index Below 15 Indicate Excellent Flowing Material And Value Over 20-30 Suggested Poor Flowing Material.Values For Angle Of Repose Less Than 30 ο Usually Indicate A Free Flowing Material And Angle Of Repose Greater Than 40 ο Suggest A Poor Flowing Material