ABSTRACT
According to the method of predicting the physical properties of oily powder based on the additive physical properties of Chinese medicinal powder, Dioscoreae Rhizoma and calcined Ostreae Concha with high sieve rate and good fluidity were mixed and crushed with Persicae Semen, Platycladi Semen, Raphani Semen, Ziziphi Spinosae Semen, and other typical oily materials with high fatty oil content in proportion to obtain 23 mixed powders. Fifteen physical properties such as bulk density, water absorption, and maximum torque force were measured, and the physical properties of typical oily powders were predicted. When the mixing and grinding ratio was in the range of 5∶1-1∶1, the r value in the correlation equation between the weighted average score of the mixed powder and the powder proportion ranged from 0.801 to 0.986, and the linearity was good, indicating that the method of predicting the physical properties of oily powder based on the additive physical properties of traditional Chinese medicine(TCM)powder was feasible. The results of cluster analysis showed that the classification boundaries of the five kinds of TCM materials were clear, and the similarity of the physical fingerprints of powdery and oily materials decreased from 80.6% to 37.2%, which solved the problem of fuzzy classification boundaries of powdery and oily materials due to the lack of representativeness of oily material model drugs. The classification of TCM materials was optimized, laying a foundation for optimizing the prediction model of the prescription of personalized water-paste pills.
Subject(s)
Medicine, Chinese Traditional , Drugs, Chinese Herbal , Powders , PrescriptionsABSTRACT
Traditional Chinese medicine (TCM) effervescent tablets have the characteristics of rapid disintegration, good taste, and convenient taking, but there are some technical difficulties in the preparation and storage process, which are mainly reflected in the sticking, easy moisture absorption, poor compressibility, and poor stability. The basic physical properties of TCM powder (extract powder, raw powder) are the main cause of these technical problems, and also the key to control the quality of TCM effervescent tablets. Powder modification technology has shown good effects in solving the above problems. The author intended to review the research in the above aspects in recent years, and proposed the following strategies for applying powder modification technology to solve the problems in the production process of TCM effervescent tablets from the three aspects of raw materials, excipients and preparation intermediates:①The application of co-processing technology to the treatment of raw materials and auxiliary materials can solve the problems of sticking, poor compressibility, delayed disintegration, and poor stability. ②Using surface coating technology to treat raw materials and preparation intermediates can improve poor fluidity, poor compressibility and delayed disintegration. ③The hygroscopicity of the preparation can be reduced by using microencapsulation technology to treat the raw material. ④The inclusion technology can improve the clarity and stability of the preparation.
ABSTRACT
The purpose of the present study was to investigate the relationship of the classification of traditional Chinese medicine(TCM) materials with the suitable binder concentration and dosage in the preparation of personalized water-paste pills and establish a model for predicting the binder concentration and dosage. Five representative TCM materials were selected, followed by mixture uniform design. The water-paste pills were prepared by extrusion and spheronization with hypromellose E5(HPMC E5) as the binder. The quality of intermediates and final products was evaluated, and the resulting data were subjected to multivariate statistical analysis. The prediction models for binder concentration and dosage were established as follows: binder concentration: Y_1=0.378 6 + 0.570 1X_A + 2.271 2X_B-0.894 5X_C-0.458 2X_D-1.145 4X_E(when Y_1 < 0, 10% HPMC E5 was required; when Y_1 > 0, 20% HPMC E5 was required), with the accuracy reaching up to 100%; binder dosage: Y_2=32.38 + 0.25X_A + 1.85X_B-0.013X_B~2-0.002 5X_C~2(R~2=0.932 6, P < 0.001). The results showed that the binder concentration and dosage were correlated positively with the proportion of fiber material but negatively with the proportions of sugar material and brittle material. Then the validation experiments were conducted with the prediction models and all the prescriptions could be successfully prepared at one time. These demonstrated that following the classification of TCM materials and the calculation of their proportions in the prescription, the established mathematical model could be adopted for predicting the binder concentration and dosage required in the preparation of personalized water-paste pills, which contributed to reducing the pre-formulation research and guiding the actual production of personalized water-paste pills.
Subject(s)
Drugs, Chinese Herbal , Excipients , Hypromellose Derivatives , Medicine, Chinese Traditional , WaterABSTRACT
Chinese medicinals feature different medicinal parts and enriched components, which makes their powders show obvious microscopic identification characteristics and specific physical properties. On this basis, the commonly used Chinese medicinals can be divided into several categories, such as powdery, fibrous, sugar, oil, and brittle materials, which is of great importance to the research and development of personalized Chinese medicinal preparation technology. However, the existing classification methods are highly subjective and thus difficult to meet the requirements for the development of personalized Chinese medicinal preparations with high quality. In this study, 55 representative Chinese medicinals, such as Dioscoreae Rhizoma and Leonuri Herba, were selected, and the physical properties of their powders were systematically characterized by comprehensive powder tester, torque rheometer, texture analyzer, etc., based on which a data set encompassing physical properties of these powders was built. The typical physical fingerprints of powders from the above 5 categories were established by multivariate statistical analysis. Then, the Chinese medicinals were classified according to the Euclidean distance between each of them and the typical value in the PCA score plot. For those with multiple material properties, whose classification boundary was fuzzy, the proportions of different types of materials were calculated with the combination of Euclidean distance, powder properties, microscopic identification characteristics, and chemical composition, so as to achieve the multivariate quantitative classification of Chinese medicinals. This lays the foundation for the further creation of intelligent personalized Chinese medicinal preparation technology.
Subject(s)
Drugs, Chinese Herbal , Medicine, Chinese Traditional , Powders , RhizomeABSTRACT
With Sangtang Yin granule as model drug,and based on the strategy of " unification of medicines and excipients",the feasibility of preparing high drug loading granules with traditional Chinese medicine( TCM) raw powder as carrier was explored. The powder yield,particle size and particle size distribution,fillibility,flowability,hygroscopicity,reconstituability and other key physical properties relating to preparations of 8 herbs( Dioscoreae Rhizoma,Euryales Semen,Atractylodis Macrocephalae Rhizoma,Coicis semen,Poria,Puerariae Lobatae Radix,Puerariae Thomsonii Radix and Coicis Semen by stir-frying with bran) were studied after being smashed,and the feasibility of taking them as excipients of TCM granules was evaluated by co-spray drying,dry granulation and other preparation techniques. According to the results of the physical properties of raw powders,raw powders of Dioscoreae Rhizoma,Euryales Semen and Puerariae Thomsonii Radix had a high powder yield,uniform particle size distribution,good fillibility,poor hygroscopicity and good reconstitutability,with the feature of assisting granule forming. Compared with the prescription of spray dry powder Sangtang Yin without any excipient,the co-sprayed powder had a high yield,good fillibility and compressibility. The yield of dry granules prepared by co-spraying dry powder was increased by more than 10%,and the particles had a uniform color,good fluidity and dissolubility with the drug-loading rate up to 100%. Based on the physical characteristics of TCM raw powder combined with the analysis of the preparation process,Dioscoreae Rhizoma and Puerariae Thomsonii Radix raw powder were selected as the carriers of granule preparations,and Sangtang Yin granule without any excipient was successfully prepared. The findings provide a feasible idea for the preparation of TCM granules with a high drug loading capacity.
Subject(s)
Excipients , Medicine, Chinese Traditional , Particle Size , Powders , Pueraria , RhizomeABSTRACT
To improve the fluidity and compactibility properties of raw powders of traditional Chinese medicine by particle modification technology, Lonicera Japonica Flos was used as a model drug, fluidized bed bottom spray technology was used, and Plasdone S-630 was used as a modifier to prepare modified particles. The powder properties, tablet compactibility parameters, disintegration time and dissolution were measured. The surface morphology of the powder particles before and after modification and compressed tablets were characterized by combining with scanning electron microscopy technology. The results showed that the particle size of Lonicera Japonica powder has been increased after particle modification, the fluidity, compressibility and compactibility of the powder have been improved to some extent, the disintegration time has also been reduced, and the dissolution in vitro is not affected. Therefore, this study can provide reference and ideas for the common problem that raw powder of traditional Chinese medicine that cannot meet the needs of preparation production due to poor powder properties such as fluidity and compressibility.
ABSTRACT
The surface and interface,as the transition region between two phases,belongs to the category of physical chemistry.At present,it is widely used in materials and other scientific fields.Meanwhile,this property also plays an important role in pharmaceutical research.The interface layer involved in the progress of pharmaceutical preparations is connected with the two-phase or three-phase between gas,liquid and solid closely.The interface effect will affect the final shaping of pharmaceutical preparations and the dissolution and absorption of drugs in the human body.In this paper,the surface and interface characteristics(specific surface area,surfacial and interfacial tension and surface Gibbs free energy) were compared,and the application of interface phenomena(wetting,solubilization and emulsification) in pharmaceutical research were introduced.From the points of view of the progress control of pharmaceutical preparations and the effectiveness of their products,the article expounds the important role of properties of surface and interface in the field of pharmaceutical preparations.Therefore,it is necessary to pay attention to the properties of surface and interface,one of the key physical properties of drugs,and to apply them in the pharmaceutical research.
ABSTRACT
To explore the correlation between chemical compositions (organic acids, small molecule sugars, protein and others) of traditional Chinese medicine extracts and the wall stickiness in spray drying. In this study, 55 types of most common used Chinese herbs were selected to determine the content of 7 chemical components such as citric acid and fructose from plant extraction. The status of wall stickiness was observed during the drying process. The principle component analysis (PCA-X), hierarchical clustering analysis(HCA) and orthogonal partial least squares-discriminant analysis (OPLS-DA) were then used to evaluate the correlation between each chemical compositions and wall stickiness, so as to look for the essential chemical compositions associated with the wall stickiness. All of the above 3 statistical analysis methods showed significant results in distinguishing the two groups (sticky or non-sticky). PCA-X score chart and HCA clustering scatter plot suggested that the small molecular substance was the main factor causing wall stickiness, which was then proved by the reality where some of the traditional herb extracts were in non-sticky state after drying but in sticky state after alcohol precipitation. OPLS-DA results revealed that L-malic acid, citric acid, fructose and glucose were the difference factors for the wall stickiness of the extracts. Under small molecular components, L-malic acid, citric acid, fructose and glucose were the crucial factors that directly led to the hot melt sticky wall of the herbal extracts, and macromolecular substances might ameliorate the function of wall stickiness.
Subject(s)
Citric Acid , Desiccation , Discriminant Analysis , Drugs, Chinese Herbal , Chemistry , Fructose , Glucose , Least-Squares Analysis , Malates , Medicine, Chinese Traditional , Plant Extracts , Chemistry , Principal Component AnalysisABSTRACT
A new device was designed to measure adhesive force and predict whether traditional Chinese medicine extracts would appear hot-melt sticking in spray drying process.Based on the physical property tester as fundamental test platform, the device was fixed with a camera, a temperature and humidity sensor probe and a set of equipment for hot air. This device could simulate the dry environment of spray dryer and analyze the variables of testing solutions' adhesiveness against drying time. To establish and validate a model of predicting hot-melt sticking in spray drying, data was collected by using data mining. The results of this study proved that the device could be used to predict the hot-melt sticking in spray drying based on the adhesive force of materials (testing solutions). In addition, the study also found that the adhesiveness of the hot-melt sticking materials gradually increased with the evaporation of water, while that of non-sticking materials first increased and then rapidly decreased.
Subject(s)
Adhesives , Desiccation , Freezing , Hot Temperature , Medicine, Chinese TraditionalABSTRACT
With the extracts of Puerariae Lobatae Radix as the research object, the moisture absorption isotherm at 298, 308 and 318 K was determined through dynamic water vapor adsorption. Moisture absorption isotherm models were applied to the simulation of moisture absorption behavior. The enthalpy, entropy and Gibbs free energy for moisture adsorption were calculated according to the model and the enthalpy-entropy compensation was used to analysis moisture adsorption process. It was shown that the adsorption isotherm coincided with GAB model or Ferro-Fontan model. Moisture absorption process was an exothermic process which was driven by entropy. The effect of moisture on compressibility was evaluated through tensile strength and elastic recovery with water content, pressure force and speed variation. It was supposed that right amount of moisture was required to compression and compaction.
ABSTRACT
This study was designed to establish the method of characterization of surface free energy(SFE)and evaluate the compaction properties of pharmaceutical materials based on SFE. We investigated the contact angles of materials with water and diiodomethane under different compression pressures. The contact angles of materials at 353 MPa compression pressure were utilized to calculate the related parameters of SFE ultimately. The area under tensile strength-compression pressure curve(AUTSC)and pressure yield(Py)were employed to evaluate the compactibility of material. Additionally, Pearson correlation analysis was utilized to analyze the relationship between the SFE and the compaction properties of pharmaceutical materials. The results exhibited that SFE had a significant correlation with the compaction properties of materials(P < 0.05). Moreover, the related parameters of SFE, i.e., cohesive work(Wco)and polarity index(PI)of SFE, were positively correlated with Py of Heckel equation and negatively related with AUTSC. The higher values of Wco and PI, the stronger repulsive force among the particles, led to a worse compaction behavior. In this study, we established the method for characterization of the compaction behavior of materials based on SFE initially. This study also demonstrated that SFE could evaluate the compaction behavior effectively, which provides a better understanding of compaction behavior for pharmaceutical researchers.
ABSTRACT
Traditional processes are mostly adopted in traditional Chinese medicine (TCM) preparation production and the quality of products is mostly controlled by terminal. Potential problems of the production in the process are unpredictable and is relied on experience in most cases. Therefore, it is hard to find the key points affecting the preparation process and quality control. A pattern of research and development of traditional Chinese medicine preparation process based on the idea of Quality by Design (QbD) was proposed after introducing the latest research achievement. Basic theories of micromeritics and rheology were used to characterize the physical property of TCM raw material. TCM preparation process was designed in a more scientific and rational way by studying the correlation among enhancing physical property of raw material, preparation process and product quality of preparation. So factors affecting the quality of TCM production would be found out and problems that might occur in the pilot process could be predicted. It would be a foundation for the R&D and production of TCM preparation as well as support for the "process control" of TCMIs gradually realized in the future.
Subject(s)
Humans , Drug Compounding , Methods , Reference Standards , Drugs, Chinese Herbal , Chemistry , Reference Standards , Medicine, Chinese Traditional , Reference Standards , Quality Control , Research , Reference Standards , Research Design , Reference Standards , Technology, Pharmaceutical , Methods , Reference StandardsABSTRACT
The present work is to investigate the correlation between physical properties and deformation behaviors of tablet excipients, and rank them according to their plastic performances during compaction. The excipients selected were compacted using Korsch XP1 after measuring their physical properties where the compression parameters for evaluating deformation behaviors were Heckle equation, compression work and elastic stretch in die. The correlations between compaction descriptors and physical parameters were analyzed by canonical correlation analysis, and factor analysis was simultaneously employed to synthetically assess deformation behaviors for all our samples. The canonical variables show that true density (Pa) correlated negatively with plastic coefficient (PL) and positively with yield pressure (YP); compression degree (Cp) correlated negatively with fast elastic stretch (FES) as well as YP and positively with PL. When factor scores were used in combination with original data, the plasticity of our samples was sorted and ranked as high (-0.56 < F' < 0.21), intermediate (-0.16 < F' < 0.36), or low (0.38 < F' < 0.84), which are in accord with plasticity rankings previously reported in literature. This study indicates factor analysis can be an approach to evaluate deformation behaviors of pharmaceutical powders.
Subject(s)
Chemistry, Pharmaceutical , Methods , Compressive Strength , Elasticity , Excipients , Chemistry , Factor Analysis, Statistical , Particle Size , Pharmaceutical Preparations , Chemistry , Powders , Chemistry , Pressure , TabletsABSTRACT
Material properties and hygroscopicity were determined. Principal component analysis and partial least squares regression were applied to evaluate relationships between material properties and hygroscopicity of Chinese medicine raw materials. The results showed that hygroscopicity was correlated with water content, particle size distribution, water soluble characteristic and cohesion. Balanced moisture content was positively correlated with water content, particle size distribution, water soluble characteristic and cohesion. Moisture absorption velocity was negatively correlated with particle size distribution, protruding degree and positively correlated with water soluble characteristic and cohesion. Moisture absorption acceleration was positively correlated with water content, particle size distribution and negatively correlated with water soluble characteristic and cohesion. Hygroscopicity of Chinese medicine raw materials is interpreted in terms of physics.
Subject(s)
Absorption , Drugs, Chinese Herbal , Chemistry , Least-Squares Analysis , Multivariate Analysis , Particle Size , Plants, Medicinal , Chemistry , Principal Component Analysis , Solubility , Water , WettabilityABSTRACT
The main methods of characterizing the flowability of pharmaceutical powders include repose angle method, HR method, Carr's index method, Jenike flow function method, fractal dimension method, and mass flow rate method, etc. Regarding powders with different flowabilities as the research subject, comprehensive features of pharmaceutical materials were investigated and characterized. The multivariate analysis method was employed to evaluate and analyze flowability values of the tested pharmaceutical materials. Comparing with the method of the mass flow rate, it was feasible to use multivariate analysis method to evaluate the flowability of powders. Simultaneously, the flowability of pharmaceutical materials could be ranked and definitely quantified, and critical values be determined according to the actual production, which has promoted the previous methods dependent only on the single parameter, i.e. repose angle and compression degree methods. A relatively objective standard method of evaluating flowability of powders is formed.
Subject(s)
Multivariate Analysis , Particle Size , Powders , Chemistry , Principal Component Analysis , Technology, Pharmaceutical , MethodsABSTRACT
Objective To investigate the clinical, cerebrospinal fluid and imaging characteristics of 5 cases of diffuse meningeal melanomatosis.Methods The clinical manifestation, features of cerebrospinal fluid and image of 5 patients with meningeal melanomatosis diagnosed by biopsy or autopsy were retrospectively summarized.Results Clinical manifestations of these 5 cases included intracranial hyperpressure, meningeal irritation sign, intracranial nerves impairment, root pain of spinal nerve.In all of these 5 cases, retina hyperpigmentation above left discus opticus was found by funduseope in one case, and congenital melanocytic nevi were found in 4 patients, in which 2 cases were giant congenital melanocytic nevi.Increased lumbar puncture cerebrospinal fluid(CSF)pressure occurred in all cases.Subarachnoid hemorrhage was found in 3 cases.Analysis of CSF revealed increased protein in 4 cases and decreased glucose in 3 cases.Cranial MRI obtained after the intravenous administration of Gd-DTPA showed leptomeningeal enhancement.Malignant melanoma cells were found in CSF of 3 cases.Metastatic malignant melanoma cells were found by biopsy of axillary fossa lymph node in one case.Autopsy of one case revealed diffuse black pigmentation of the leptomeninges, especially in base of skull.Two cases were diagnosed as metastatic meningeal melanomatosis and 3 cases were possible primary meningeal melanomatosis. Conclusions Menings, root of cranial nerve and spinal nerve are impaired in meningeal melanomatosis, which is usually accompanied by congenital melanocytic nevi.Subarachnoid hemorrhage implies meningeal melanomatosis.Diagnosis can be identified when malignant melanoma cells are found in CSF.