LIQUID SECTION

 Liquid Section

Syrup and suspension have used as the oral administration, as the dose of liquid medicine in earlier. In the modem century, the therapeutic use of syrup and suspension is modernized by the discovery of new therapeutic agents with the help of chemistry.

 Syrup

Syrup is the concentrated aqua solution of sucrose and other sugars or sweetening agents to which small quantities of suitable polyhydric alcohols may be added to retard crystallization or to increase the solubility of the other ingredients. It usually contains aromatic or other flavoring materials. It should keep in well-closed containers and stored at temperatures not exceeding 90°c.

 Manufacturing of syrup

To solve the formulation problems encountered with pharmaceutical liquid, an interesting dichotomy of investigate skills is required. On the one hand, solubility and stability factors can be approached with the precision long associated with the exact science; on the other hand, flavoring and other organoleptic characteristics remain subjective factors for which the application of the scientific method still plays a distressingly minor role. Thus, the successful formulation of liquids as well as other dosage forms requires a blend of scientific acuity and pharmaceutical art.

Quality Control of Syrup

Whether or not a substance dissolves in a given system and the extent to which it dissolves depends largely on nature and intensity of the forces presents in the interaction energies and the interplay of electronic and steric factors in determining the solubility of substances in various classes of solvents. The solubility is the factors of the following important terms:

A. pH

The solubility of a large number of modem chemotherapeutic agents can be marketedly influenced by the pH of their environment. The pH that satisfies the solubility requirements, mast not conflict with product requirements, such as stability and physiological compatibility. In addition to this if pH is critical to maintaining drug solubility; the system must be adequately buffered. The selection of a buffer must be consistent with the following criteria:

1. The buffer must have adequate capacity in the desired pH range

2. The buffer must be biologically safe for the intended use

3. The buffer should have little or no deleterieres effect on the stability of the final product

4. The buffer should permit acceptable flavoring and coloring agents

B. Co solvency

Weak electrolytes and monopolar molecules frequently have poor water solubility. Their solubility usually can be increased by the addition of water-miscible solvent in which the drug has good solubility. This process is known as Co solvency.

C. Dielectric constant

A more practical approach to the solubility problem may be found in what has come to be known as the dielectric requirement. According to this theory every solute shows a maximum solubility in any given solvent system at one or more specific dielectric constants. The absolute solubility of a solute may vary considerably in two different solvents of the same dielectric constant, but the solubility profile, as a function of dielectric constants appears to be similar for a solute in a wide variety of solvent systems.

D. Hydrotropy

The term hydtropy has been used to designate the increased in solubility in water of various substances due to the presence of large amount of additives. The mechanism by which this effect occurs is not clear. Some workers have speculated that hydrotropy is simply another type of solubiization with the solute dissolved in oriented clusters of the hydrotropic agent.

D. Stability

It consists chemical stability and physical stability to the existence of liquid solution.

 • Chemical stability

Techniques for prediction chemical stability of homogenous drug systems are well defined. Chemical instability of drug invariably is magnified in solution, opposed to solid or suspension systems. This liability, however, is to a large extent offset by the rapid and accurate stability predictions which are possible with homogeneous system but are extremely risk with heterogeneous dosage forms studies involving evaluation of stability in liquid drug system includes the effect of amino acids on the stability of aspirin in propylene glycol solution, and a systematic of the auto oxidation of polysorbates.

 • Physical stability

A physically stable oral liquid retain its viscosity, color clarity, taste and odor throughout its self-life. All of these characteristics can and should be evaluated subjectively and objectively if possible, during the course of stability assessment.

Suspensions

Suspensions are heterogeneous systems containing two phases. The continuous or external phase is generally liquid or semisolid and the dispersed or internal phase is made up of particulate matter that is essentially insoluble but dispersed throughout the continuous phase; the insoluble matter may be intended for physiologic absorption. Understanding of wetting, particle interaction, electro-kinetics aggregation and a sedimentation concept facilitates the making of good formulation for suspensions.

Capsule & Different types of Capsule

Capsules are solid preparations with hard and soft shells of various shapes and capacities, usually containing a single dose of active ingredient. They are intended for oral administration.

The solid shells of capsules are made of gelatin or other substances, the consistency of which may be adjusted by the addition of substances such a ‘glycerol or sorbitol. Excipients such as surface-active agents, opaque filters, antimi 1 preservatives, sweeteners, coloring matter and flavoring substances may be addeci, The content of capsules may be solid, liquid or of a paste-like consistency. They consist of one or more active ingredient with or without excipients such as solvents, diluents, lubricants and disintegrating agents. The contents do not cause deterioration of the shell. The shell, however, is attacked by the digestive fluids and the contents are released.

 Different types of Capsule

Several categories of capsules may be distinguished as

          • Hard capsules                               • Soft capsules

          • Gastro resistant capsules           • Modified release capsules

A. Hard capsules

Hard capsules have shells consisting of two prefabricated cylindrical sections, one end of which is rounded and closed, and the other being open.

B. Soft capsules

These have thicker shells than those of hard capsules. The shells consist of one part

And have various shapes.

C. Gastro resistant capsules

These are modified release capsules that are intended to resist the gastric fluid and to release their active ingredients in the intestinal fluid. They are prepared by providing hard or soft capsules with a gastro-resistant shell or by filling capsules with granules or with particles covered with a gastro resistant coating.

D. Modified-release capsules

Modified release capsules are hard or soft capsules in which the contents or the shell or both contain special excipients or are prepared by a special process designed to modify the rate or the place at which the active ingredient are released.

Tablet coating

The application of coating to tablets, which is an additional step in the manufacturing process, increases the cost of the product; therefore, the decision to coat a tablet is usually based on one or more of the following objectives

I. To mask of the unpleasant odor or color of the drug

2. To provide physical or chemical protection for the drug

3. To control the release of the drug from the tablet

 4. To protect the drug from the gastric environment of the stomach with an acid resistance enteric coating

5. To provide sequential drug release

6. To improve the pharmaceutical elegance the use of special color and contrasting printing

Tablet coating process

In most cases, the coating process is the last critical step in the tablet production cycle. The successful application of the coating solution formula to a tablet provides the visual characteristics for the product. This type of process chosen depends on the type of coating that is to be applied, durability of the core and the economics of the process. Because of the ever-increasing cost of energy and labor, the cost of the organic solvents and the associated environmental constrains, the economics of the process is receiving greater emphasis. There are three coating processes in pharmaceuticals, these areas-

• Film coating

• Enteric coating

• Sugar coating

 Criteria of film coating material

An ideal film coating material should have the following criteria

        I. Solubility in solvent of choice for coating preparation.

        2. Capacity to produce an elegant looking product.

        3. Stability in the presence of heat, light, moisture, air and the substrate being coated. The film properties should not change with aging.

        4. Essentially no taste, color or odor

Example of coating materials are-

        • Hydroxyl propylmethylcellulose US

       • Providon USP (1 -vinyl-2-pyrolidinone group)

Criteria of enteric coating material

An ideal enteric coating material should have the following criteria

a. Resistant to gastric fluid

b. Ready susceptibility or permeability to intestinal fluid

c. Compatibility with the drug substance

d. Stability in coating solution

e. Fonnation of a continuous film

f. Non toxicity and low costing.

Example: Sodiumsalicylate.

Manufacturing of Tablet

Tablets are prepared by compressing uniform volumes of particles or particle aggregates produced by granulation methods. In the manufacture of tablet cores means ensuring that they process a suitable mechanical strength to resist handling without crumbling or breaking. These may be demonstrated by examining the friability of uncoated tablets and the resistance to crushing. Chewable tablets are taken to ensure that they are crushed by chewing.

The manufacture of granule for tablet compression may follow one or a combination of three established methods -

(a) The dry methods of direct compression

(b) Compression granulation

(c) Wet granulation                                                                                                                                                                                     

(a) Direct compression

The vast majority of medicinal agents are rarely so easy to tablet, however in addition the compression of a single substance may produce tablets that do not disintegrate. If disintegration is a problem, the components are needed which in turn may interface with the compressibility of the active ingredient.

(b) Compression granulation (Slug process)

This is a valuable technique in situations where the effective dose of a drug is sensitive to heat moisture or both, which precludes wet granulation. Many aspirin and vitamin for mutations are prepared for tabletting by compressing granulation. Compression granulation involves the compaction of a tablet press or specially designed machinery, followed by milling and screening prior to find compression into a tablet. When the initial blend of powders is forced into the dyes of a large capacity tablet press and is compacted by means of flat faced punches, the compacted masses are called slugs, and the process is referred to as slugging. The slugs are then screened or milled to produce a granular form which now flows more uniformly than the original powder mixture.

 (c) Wet granulation

This technique uses as same as the two previously discussed granulation technique. The unique portion of wet granulation process involves the wet massing of the powder, wet sizing and drying.

Brief Description of Various Tablets

Uncoated Tablets

Uncoated tablets include single-layer tablets resulting from a single comparison of particles and multilayer tablets consisting of concentric or parallel layers obtained by successive comparison of particles of different composition.

Coated Tablets

Coated tablets are covered with one or more layers of mixtures various substances such as natural or synthetic resins, gums, gelatin, inactive and insoluble ifilers, sugars, plasticizers, polyols, waxes, coloring matters, flavoring substances. The substances used as coatings are usually applied as a solution or suspension in conditions in which evaporation of vehicles occurs. When the coating is veiy thin polymeric, the tablets are then known as film coated tablets.

Effervescent Tablets

Effervescent tablets are uncoated tablets generally containing acid substances and carbonates on hydrogen carbonates which reacts rapidly in the presence of water to release of C . They are intended to dissolve or to disperse in water before administration.

Soluble Tablet

Soluble tablets are uncoated or film coated tablets. They are intended to be dissolved in water before administration. The solution produced may be slightly opalescent due to added substances used in the manufacture of the tablets.

Dispersed Tablet

These tablets are uncoated or film coated tablets intended to be dispersed in water before administration giving a homogeneous dispersion.

Gastro resistant Tablet

These are modified release tablets that are intended to resist the gastric fluid and to release their active ingredients in the intestinal fluid. They are prepared by converting tablets with a gastro-resistant coating or from granule or particles already covered with a gastro-resistant coating.

Modified Release Tablet

These are coated or uncoated tablets containing special procedures which separately or together are designed to modify the rate or the place at which the active ingredient are released.

TABLET

Tablet contains one or more active ingredients and obtained by comprising uniform volumes of particles. Some are swallowed whole; some after being administered and some are retained in the mouth where the active ingredient is liberated. It may consists of excipients such as diluents, binders disintegrating agents, glidants , lubricants, coloring matters and agents etc.

Tablet end surfaces may be flat or convex. They may have lines or break marks and may bear a symbol or other markings. It may be coated or non-coated. Several categories of tables for oral use may be distinguished:

--Uncoated tablet

--Coated tablet

--Effervescent tablet

--Soluble tablet

--Dispersible tablet

--Gastro-resistant tablet

--Tablets for use in the mouth

--Modified release tablets

Oral Liquid Manufacturing Flow Chart

 01.   Weighing &

    Mixing

       

02. Capsule

       Filling

03. Polishing

04.     Blistering

05. Inner Cartooning

06.    Master

Cartooning

. 

Operation of Powder Filling Machine

1.0    PURPOSE: Ensuring the operation of Powder filling machine in a proper way. 2.0    SCOPE: This SOP applies for the proper use of Powder filling machine. 3.0   DEFINITION:   Nil. 4.0   RESPONSIBILITY:   Engineering Incharge,  Machine operator. 5.0   PROCEDURE:            5.1   Set the turntable guide as per the require bottle size for filling.            5.2   Set the conveyer guide as per the bottle size.            5.3   Place the separation as per the bottle size.            5.4   Set the height of the filling head as per the bottle size i.e the gap should be                    4 mm to 5 mm between bottle & Nipple.            5.5   Check the humidity of the room it should must be 30 to 35.            5.6   Start the main rotary switch.            5.7   Keep the dose switch off & press the START switch to run the machine.            5.8   Run the empty bottles on the conveyor to check the smooth transportation of                    The bottle from start to end of the conveyor.            5.9   Fill the powder into the hopper.            5.10 Set the time of the timer to fill the require dose into the bottle.            5.11 MOVE the ROD FOR POWDER FLOW ADJUSTMENT part no. 7.5 to fill                    The powder into the glass jar. The level of the powder should must be at                    Middle of the glass jar. Always maintain the level of the powder to reduce the                   Weight variation.            5.12 on the dose switch to fill the powder into the bottle.            5.13 Checks the weight of fill the powder into the bottle.            5.14 A metal proxy is provided to start augur when the bottle stops at the separator

5.15    The machine stops by pressing stop key. 5.16    LIMIT SWITCH FOR CLUTCH stops the machine when any bottles dose not Insert into the separator properly.

Operation of Liquid Filling Machine

1.0      PURPOSE: Ensuring the operation of liquid filling machine in a proper way. 2.0      SCOPE: This SOP applies for the proper use of liquid filling machine. 3.0   DEFINITION:   Nil. 4.0   RESPONSIBILITY:   Engineering Incharge,  Machine operator. 5.0   PROCEDURE:              5.1   Clean the machine first with dry clean-cloth.              5.2   Connect electricity to the machine. 5.3   Introduce the entry pipe of the machine into Specified MEDICINE VAT. 5.4   Switch ON the machine. 5.5   Set filled volume into the machine. 5.6   Fill the bottle & transfer them into next stage. 5.7   After completion of filling, Wash & clean the machine with distilled water         Properly & switch off the machine. 5.8    Swap the machine with clean dry-cloth & disconnect the PLUG from the Socket.

Operation of Cap Sealing Machine

1.0      PURPOSE: Ensuring the operation of cap sealing machine in a proper way. 2.0      SCOPE: This SOP applies for the proper use of cap sealing machine. 3.0      DEFINITION:  Nil 4.0   RESPONSIBILITY:    Engineering Incharge,  Machine operator. 5.0   PROCEDURE:              5.1   Clean the machine first with dry clean-cloth.              5.2   Connect electricity to the machine.              5.3   Set the machine with define measurement of caps & bottles.              5.4   After proper setting the machine, seal the bottles properly.              5.5   After completion of sealing, switch OFF the machine & clean the machine                      Properly with dry cloth. 5.6      Disconnect the PLUG from the socket & stop the machine.