#CAMAG HPTLC
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Camag TLC in india
Discover Camag TLC: Your Trusted Provider of Thin Layer Chromatography (TLC) Solutions in India!
Searching for reliable Thin Layer Chromatography (TLC) solutions in India? Look no further than Camag TLC! We specialize in providing advanced TLC instruments and accessories for various industries, including pharmaceuticals, research, and quality control.
Contact us today to explore our comprehensive range of TLC solutions tailored to your specific requirements.
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Development and Validation of Stability Indicating HPTLC Method for Determination of Iguratimod in Bulk and Pharmaceutical Dosage Form.
Research Paper of Dr Santosh Gandhi
Authors: Gandhi Santosh; Jagtap Manisha
Journal Details: International Journal of Pharmacy and Pharmaceutical Sciences, Vol 14, Issue 11, 2022 , 31-36
DOI: 10.22159/ijpps.2022v14i11.45705
Research Paper Link: https://journals.innovareacademics.in/index.php/ijpps/article/view/45705/27150
Publisher: Innovare Academic Sciences Pvt. Ltd.
Description: The objective of the work was to develop and validate stability indicating HPTLC method for estimation of Iguratimod. The method employed HPTLC aluminium pre-covered silica gel 60 GF254 plates (10 cm × 10 cm with 250 μm layer thickness) as stationary phase while solvent system was n-Hexane: Ethyl Acetate (5:5 v/v) with densitometric scanning at 256 nm. Sample was applied as a band of 8 mm width using Camag 100 μl sample syringe (Hamilton, Switzerland) using a linomat 5 applicator (Camag, Switzerland). Migration distance was 80 mm. Further the sample was subjected for stress conditions under acid and base hydrolysis, oxidation, thermal, neutral and photolytic conditions. Method validation done according to ICH Q2 (R1) guidelines.Retention factor (Rf) of the drug was 0.41 ± 0.02. The linearity of the method was found to be within the concentration range of 200-1200 ng/band with R2= 0.983. Limit of detection and limit of quantification were found to be 34.69 and 105.12 ng/band respectively. The % mean recovery was found to be 100.38 ± 0.83. Stress results showed that there is degradation in acid and base condition but two degradant peaks were observed only under alkaline stress condition The developed method found to be accurate, simple and precise. Method is successfully employed for quantification of drug under various stress conditions.
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HPTLC Specialists | Forensic Analysis, Application- Anchrom
#HPTLC Specialists#HPTLC specialist in India HPTLC Forensic application Camag TLC HPTLC analysis HPTLC procedure Anchrom Enterprises Anchrom
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HPTLC Specialists | Forensic Analysis, Application- Anchrom is one of the HPTLC specialists since 1978 in India. This method is used for food, forensic, herbal etc analysis. Browse here to know more products.
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Thin Layer Chromatography Systems Market Share, Trends, Demand, Global Industry Size, and COVID-19 Pandemic Presenting Future Opportunities 2027 : Shimadzu, Agilent Technologies, Emd Millipore, Sigma Adlrich
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The recent report on “Global Thin Layer Chromatography Systems Market Report 2021 by Key Players, Types, Applications, Countries, Market Size, Forecast to 2027” offered by Axel Reports, comprises of a comprehensive investigation into the geographical landscape, industry size along with the revenue estimation of the business. Additionally, the report also highlights the challenges impeding market growth and expansion strategies employed by leading companies in the “Thin Layer Chromatography Systems Market”.
An exhaustive competition analysis that covers insightful data on industry leaders is intended to help potential market entrants and existing players in competition with the right direction to arrive at their decisions. Market structure analysis discusses in detail Thin Layer Chromatography Systems companies with their profiles, revenue shares in market, comprehensive portfolio of their offerings, networking and distribution strategies, regional market footprints, and much more.
Download Sample PDF+ All Related Graphs & Charts (Including COVID19 Impact Analysis) @: https://axelreports.com/request-sample/113215
(Note: The sample of this report is updated with COVID-19 impact analysis before delivery)
In addition, the report includes profiles of competitors in the market. The main Players include:
Shimadzu
Agilent Technologies
Emd Millipore
Sigma Adlrich
Analtech
End Millipore
Camag
Fisher Scientific
Field Forensics
Sorbtech
Orchid Scientific
Biostep Rechnology
Shanghai Kezhe
Main Product Type Covered In The Market Research Report:
Classical Tlc
High Performance Tlc (Hptlc)
Preparative Tlc (Plc)
Application Segments Covered In The Market Research Report :
Academics
Agriculture Industry
Biotechnology
Environmental Biotechnology
Pharmaceuticals
Others
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Key Questions Covered in the Report :
What is the total market value of the Global Thin Layer Chromatography Systems Market report?
What would be the forecast period in the market report?
What is the market value of the Global Thin Layer Chromatography Systems Market in 2021?
What is the Key Industry Leader’s opinion for the Global Thin Layer Chromatography Systems?
Which is the base year calculated in the Global Thin Layer Chromatography Systems Market Report?
What are the key trends in the Global Thin Layer Chromatography Systems Market Report?
What are the market values/growth % of emerging countries?
Which market holds the maximum market share of the Global Thin Layer Chromatography Systems Market?
Some Point from Table of Content:
Market Overview: It includes six chapters, research scope, major manufacturers covered, market segments by type, Neutral and Extra Neutral Alcohol market segments by application, study objectives, and years considered.
Market Landscape: Here, the competition in the Worldwide Neutral and Extra Neutral Alcohol Market is analyzed, by price, revenue, sales, and market share by company, market rate, competitive situations Landscape, and latest trends, merger, expansion, acquisition, and market shares of top companies.
Profiles of Manufacturers: Here, leading players of the global Neutral and Extra Neutral Alcohol market are studied based on sales area, key products, gross margin, revenue, price, and production.
Market Status and Outlook by Region: In this section, the report discusses about gross margin, sales, revenue, production, market share, CAGR, and market size by region. Here, the global Neutral and Extra Neutral Alcohol Market is deeply analysed on the basis of regions and countries such as North America, Europe, China, India, Japan, and the MEA.
Application or End User: This section of the research study shows how different end-user/application segments contribute to the global Neutral and Extra Neutral Alcohol Market.
Market Forecast: Production Side: In this part of the report, the authors have focused on production and production value forecast, key producers forecast, and production and production value forecast by type.
Research Findings and Conclusion: This is one of the last sections of the report where the findings of the analysts and the conclusion of the research study are provided.
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HPTLC for Drug Analysis
High Performance Thin Layer Chromatography (HPTLC) is the modern version of TLC wherein the principals are same but the practice is fully automated and GLP/USP/EP compliant. HPTLC for Drug Analysis is used in pharmaceuticals, APIs, botanicals, forensics, foods, speciality chemicals, etc. for establishing purity, impurities, fingerprint, identification, quantification and reverse engineering.
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Anchrom is the sole HPTLC analytical instruments dealer of CAMAG across India. CAMAG instruments are Swiss-made and are known for their quality products. Anchrom is known for its excellent service post-sales.
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HPTLC technique can be used for chromatographic fingerprinting of herbal products. Each plant has a different fingerprint pattern. When the plant extract is run in a suitable mobile phase the separation pattern observed is the herbal fingerprint of the said plant. HPTLC is a preliminary step to identify phytochemical compounds and secondary metabolites of a plant.
Fingerprints play an important role in quality control of herbal medicine. It can be used for authentication of raw material or detection of confounded material/ substitutes.
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HPTLC in food analysis can be used for Quality Control of food substances, testing additives and contaminants in food. The complex food matrices can be separated using HPTLC. Foods usually originate as botanical products and therefore are naturally variable as well as complex. HPTLC can confirm identities of complex mixtures as well as detect adulteration. HPTLC is the first method of analysis because it is simple, risk free, fast, economical and analyses 100-120 samples a day, without producing much waste. Anchrom has also worked on testing on some of the common active ingredients and contaminants in different food substances.
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Camag HPTLC is used in forensic science such as identification and comparison of banned drugs, explosives, and Dried blood spot testing. It can handle a complex matrix of biological samples such as urine, viscera, etc. HPTLC can be a preferred technique as it has a very low operational price hence making it easier for all to use it. It is also useful in testing on thermo-labile compounds, explosives, organic nitro compounds where separation and quantification can be achieved easily.
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TLC and HPTLC Difference
Thin Layer Chromatography (TLC) is a separation technique used to separate compounds in a mixture. It is based on the principle of separation through adsorption type.
HPTLC is a most versatile analytical technique which offers a great separation power using precise sample application, software-controlled chromatographic steps, chromatogram development, scanning and photo documentation.
TLC plates have big absorbent particles, whereas HPTLC plates have very minute absorbent particles. HPTLC is more sophisticated technology than TLC.
Visit us at - TLC and HPTLC Difference
Contact us at - 9833830898
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This video explains in detail the Narcotics application note on Screening Method for Identification of Forensic Drugs using CAMAG HPTLC and further confirmation by CAMAG TLC-MS Interface 2.
High Performance Thin Layer Chromatography (HPTLC) offers identification as well as qualitative and quantitative analysis for toxic substances, rapid identification of such toxins for antidote administration.
Forensic applications of HPTLC include detection of forged documents by analyzing the ink used, identification of narcotic substances, viscera samples, etc.
In case of any questions, please write to us at [email protected] You can also visit Anchrom's website HPTLC for more information
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Thin Layer Chromatography For Reaction Monitoring
How to identify whether a reaction has been completed using TLC?
Reaction monitoring is a process that can be carried out during the research and manufacturing processes. During R & D, reaction monitoring can be used to optimize process conditions.
In the manufacturing process, reaction monitoring can help to make sure that the reaction is progressing as expected.
Thin Layer Chromatography for Reaction Monitoring:
There is a number of instrumental techniques used to monitor reactions. Thin Layer Chromatography is one of the most popular techniques used in pharma industries for reaction monitoring.
As stated above, it can be used to monitor the progress of a reaction, identify compounds present in a given reaction mixture and determine the purity of a substance.
Three spots/bands are made on the TLC, one with the Starting material (SM), another one with the reaction mixture (RM), and another one in the middle (co-spot or cross-spot) in which you put both a solution of the SM and the reaction mixture.
This way you can clearly visualize, after elution, that your SM actually reacted to form a new product. This is particularly important if both SM and product have very similar Rf, and it is difficult to see if you actually have a new product or just SM in the reaction mixture.
TLC and HPTLC difference:
Although, TLC is useful for reaction monitoring it has many drawbacks or limitations it is only a qualitative technique, non-GLP compliant and prone to manual errors. These limitations can be overcome by subjecting them to HPTLC analysis.
HPTLC is a modern version of TLC wherein the principles are the same but the practice is fully automated and GLP/USP/EP compliant. HPTLC has the latest generation equipment with USP-compliant software. It is 21CFR Rule 11 compliant and designed for rapid analysis, with more output at a reduced cost.
CAMAG HPTLC in pharmaceutical analysis:
CAMAG HPTLC system has many applications in pharmaceutical analysis like identification, quantification and validation studies of API, identification of known/unknown impurities, content uniformity test (CUT studies), cleaning validation and reaction monitoring etc.
Advantages of HPTLC for drug analysis -In reaction monitoring:
A number of enhancements can be made to the original method to automate the different steps, to increase the resolution achieved with TLC and allow more accurate quantitative analysis. This can be achieved by performing High-performance Thin Layer Chromatography (HPTLC).
Unique features of HPTLC are that it is the fastest, simplest, most economical and flexible, “visible” technique which can analyse in parallel more than 100 samples. It is risk-free and multiple detections can be made without repeating chromatograms.
While doing reaction monitoring, samples from many batches can be applied simultaneously on the same plate, solvent requirement and analysis time is significantly less as a 20x20cm plate require only 20ml mobile phase and plate development time is roughly 20-30 minutes.
HPTLC Chromatography instrumentation:
CAMAG, the world’s pioneer and leader in HPTLC instrumentation has introduced a range of instruments/modules for each step in HPTLC i.e., application(CAMAG Linomat 5/ATS4), development(CAMAG ADC2), photo documentation(CAMAG Visualizer 1 / 2) and derivatization (CAMAG Derivatizer).
One can get a very clear picture of reaction progress as known/unknown intermediates and products can be visualized and identified by Rf values, spectral evaluation and if required by using a suitable derivatizing reagent.
Even we can go for quantitative analysis of the respective components and if unknown intermediates are observed, that can be further subjected to MS analysis by means of HPTLC-MS interface or FTIR for further identification and characterisation of an unknown compound.
Thus, HPTLC has many advantages in the reaction monitoring process whether it is a research or manufacturing process.
Reference:
Application of thin layer chromatography for qualitative analysis of gunpowder in the purpose of life prediction of ammunition, Namir H. et al., International Journal of Biosensors and Bioelectronics, 5(1):4-12, 2019.
https://chemistryhall.com/thin-layer-chromatography/
Anchrom Enterprises Pvt. Ltd is one of the leaders in HPTLC in food analysis. Please contact us at [email protected] for HPTLC analysis of plant extracts, drugs, ingredients in cosmetics, and forensic science.
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HPTLC Fingerprint Chromatography
Do you know each plant has different fingerprint pattern?
When the plant extract is run in a suitable mobile phase the separation pattern observed is herbal fingerprint of the said plant. This Technique is called HPTLC technique for herbal fingerprinting.
HPTLC Fingerprinting is the representation of the phytochemical composition of a plant extract or formulation, in the form of an image at 254nm, 366nm and white light. It is sequence of peaks or zones of a chromatogram specific for a sample.
Anchrom Enterprises Is one of India’s oldest companies in analytical instruments supply.
Visit us at - HPTLC Fingerprint Chromatography.
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Thin Layer Chromatography (TLC) is a separation technique used to separate compounds in a mixture. It is based on the principle of separation through adsorption type.
HPTLC is a most versatile analytical technique which offers a great separation power using precise sample application, software-controlled chromatographic steps, chromatogram development, scanning and photo documentation.
TLC plates have big absorbent particles, whereas HPTLC plates have very minute absorbent particles. HPTLC is more sophisticated technology than TLC.
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What Are The Advantages Of HPTLC For Dye Separation?What Are The Advantages Of HPTLC For Dye Separation?
Method Of Separation of Coloured Dyes
Chromatography is the science of the separation of components from a mixture. These mixtures could be anything from food, pharma, herbal, forensic or textile samples.
Of these e.g., textile dyes, food dyes, and ink are examples of different dyes. These dyes are separated by chromatography.
TLC/HPTLC (High-Performance Thin Layer Chromatography) is one of the best chromatographic techniques for the effective separation of dye mixtures.
There are many examples of dyes i.e., Solvent dyes (e.g., Sudan Red R, Sudan orange G, Sudan Blue G etc.), Disperse Dyes (e.g., Celliton Fast Blue B, Celliton Fast Pink B), Azo pigments Permanent Red FR extra, Amaplast orange ORC, basic dyes (e.g., Rhodamine B, Malachite Green etc.), Acid dyes (Metanil yellow, Ponceau R) etc.
These dyes have applications in various industries like paper, leather, textile, polyamide fibres, inks etc. Only certain acid dyes are permitted for colouring foodstuffs and such food colourants are treated under different categories) of permissible food colours.
High-Performance Thin Layer Chromatography (HPTLC) is a powerful analytical methodology suitable for qualitative and quantitative analysis.
HPTLC practice is performed using highly sophisticated instruments/modules and is GLP/USP/EP-compliant chromatography.
The unique features of HPTLC are that it is the fastest, simplest, most economical and flexible, “visible” technique which can analyse more than 100 samples in parallel. It is risk-free and multiple detections can be made without repeating chromatograms.
After doing a single analysis, the analyst gets many data points. Data is obtained at 254 nm, 366 nm, in white light and after derivatisation in white light or at 366 nm.
For quantitative analysis, densitometric scanning is done by means of a scanner. Spectral evaluation is also possible, as it has a wide scanning range starting from 190-900nm.
Nowadays HPTLC can also be coupled with mass spectrometry by means of a TLC-MS interface for the identification of compounds by mass-to-charge ratio and it can also be subjected to other techniques and like IR, and NMR for further characterization studies.
Let us take one example to understand the application of HPTLC for the separation of coloured dyes simultaneous identification and quantification of synthetic food colours in Kala khatta syrup and Halwa barfi (Indian sweet) samples.
Synthetic colours like Carmoisine, Sunset Yellow FCF and Brilliant blue FCF are FSSAI permitted colours to be used in food products. These colours are added to food to make it visually appealing.
The FSSAI has set a limit of 100 ppm for the usage of these food colours. Identification and quantification of these food colours in the food products can be efficiently performed by HPTLC.
HPTLC identification and quantification of Carmoisine, Sunset Yellow FCF and Brilliant Blue FCF was performed in Halwa Barfi (sweet) and Kala khatta (syrup) samples.
After plate development, Brilliant blue FCF, Sunset Yellow FCF, and Carmoisine are separated at Rf 0.34, 0.39, 0.45 respectively in the standard mixture (combination standard) and respective food samples.
Carmoisine and Sunset Yellow FCF are detected in Halwa Barfi and Brilliant blue FCF is detected in Kala Khatta sample. Quantification was done at λ max values of (Carmoisine) 516 nm, (Sunset Yellow FCF ) 427 nm and (Brilliant Blue FCF) 630 nm.
The amount of Carmoisine and Sunset yellow FCF added in Halwa Barfi was detected at 8.28ppm and 3.91ppm respectively. In Kala Khatta samples, the concentration of brilliant blue FCF detected is 5.25ppm.
Anchrom Enterprises Pvt. Ltd is one of the leaders in HPTLC in food analysis. Please contact us at [email protected] for HPTLC analysis of plant extracts, drugs, ingredients in cosmetics, and forensic science.
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