Precision Metal and Glass Syringe with Teflon Gaskets

for each material. Preparationof XJltrawet Solution. As total chlorine deter- mination was to be used as a measure of insecticide content of the extra...
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ANALYTICAL CHEMISTRY

11m Table I. Dernulsifioation Usinn- S u r f a c t a n t s U1trsrvet (25%

Sample, Grams

nfat&i

Solvent

canne. field peas

500

Benzene

oran ges

1500

Heptane

Peeled

Potatoe~

Solvent. N a r S 0 ~ . Solids). hii. rems hii. 1

1 2

Benrene.

1000

Extract Recovered. Ml.

anhydrous sodium sulfate was added and thoroughly disnersed. The stirrer was removed and the Ultrawet solution gently blended in with a spatula. (Vigorous Stirring resulted in formation Of an unbreakable emulsion.) After standing for several minutes. the emulsion hroke. The clear supernatant was decanted. washed with distilled water, and dried over anhydroufi sodium sulfate. The amount of Ultrawet needed to break the emulsion appeared to be somewhat critical and had to he determined experimentally for each material. Preparation of Ultrawet Solution. As total chlorine determination was to he used as a measure of insecticide content qf the extracts, it was desirable to use a chloridefree solution of Ultrawet X. The most. satisfactory method of preparing this material was by passage through an ion exchange colum~coiitniiiingIRA 400 (Rohm and Haas). Using a column 4 em. in diameter and 45 cm. long, two passes (the column regenerated between passes) were suffirientto purify 1 liter of Ultrawet K solution containing 25% solids. After the second pass, the column could be used without rcgeneration for preliminar,v chlorido removal from a n untreatrd hatch of solution.

Precision Metal and Glass Syringe with Teflon Gaskets. TI n . L :

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was developed for use with special vacuum sysTtemsvrrnge .for' the assay of radioactive water [Robinson, C. V., a

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Rev. Sei. Imtr., 22, 353 (1951)l. I n the procedure it is necessary to deliver 0.2 ml. of water into z partial vacuum dmp by drop with good control. It is also desirable to deliver 88 nearly B.R possible t,he entire amount and to he able to clean and dry the syringe readily. The ordinary type of syringe retains 60 to 70 mg. of wrater in the huh of the needle and is difficult to control unlem it is heavily greased; in this case it is difficult to clean and decontaminate. The svrinee . I described here has a smooth. controllahle action of adjustable resistance, delivers nearly the entire sample except for what is in the bore of the needle, requires no grease, and may be readily taken apart, cleaned, and dried. The syringe consists of three principal parts: the barrel, 1, the eomhined needle and plug, 2, and the plunger, 3 (see Figures 1 and 2). In the syringe shown, the barrel is a piece of precision-bore borosilicate glass tubing (manufactured by Fbcher & Porter Co., Hatboro, Pa.) of 0.1875 inch bare and 2 inches long. The useful capacity is 0.7 ml. and the motion is 0.221 inch per 0.1 ml. The needle-and-plug assembly consists of part 2A made hv silver-soldering together the stainless steel tube of ..~ ..~ ~"

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serted into the barrel and screwed together tightly enbugh en that the oxoansion of the gasket holds the plug firm1.y in place. Reasonable-care must be ewciaed, as overtightening will break the glass. The plunger, 3A, similarly has a sleeve, 3.8, nut, 3C. and Teflon easket. 3 0 . and is tightened to eive the desired &aunt of resiSt&e. ' T h e plug or p h g e r is tightened by 8.ppl.Ving small wrenches to the nut and to the flat surfaces which have been filed a t the end of the threaded portion (see Figure 1). Teflon is suitable as the gasket material because it is readily deformed, is hydrophobic and chemically inert, and has a greasy quality, so that i t slides smootbly over glass. Several tests were m d e to compare the properties of this type of syringe with the standard 1-ml. tuberculin syringe. The pre-

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Figure 2.

Precision Syringe

Over-ell length 17.5 cm.

cision sJ-ringe was found to deliver all but 16 mg. of water, 14 ma. of which *-ere in the bore of the needle. The tuberculin syringe with the same size of needle, 3-inch No. 22, was found to have a SO-mg. residue a t the end of delivery, 13 mg. of which were in the syringe, 62 mg. in the huh of the needle, and 15 mg. in the hare of the needle. A plunger-stop was provided for one of the precision syringes to test the reproduoihility of delivery. A series of six deliveries gave an average of 0.4071 3~0.00023 gram, with a standard deviation of 0.5T mg. for a single delivery. Teflon needle caps are provided far these syringes, so that samples may be stared in them (see Figure 2). Evaporation rat,es a t ronm temperature were measured on a pair of capped precision syringes and on a pair of tuberculin syringes whose tips were waxed shut. Each syringe conbined about 0.4 ml. of water. The average rate of evaporation for the tuberculin Syringes was found to he 2 mg. per day. When the precision syringes were adjusted for moderate plunger resistance, the average rate was found to he 0.6 mg. per day and, when adjusted for high resistance, less than 0.1 mg. per week. A number of syringes of this type have been in use in this Isboratory over the past year, not only for use with the tritium assay system but dso for directly sampling cerebrospinal fluid from catheters connected into the subarachnoid space and for Storing these samples prior to assap. The syringes may be autoclaved with no other ill effect than loosening of the gaskets, which can he corrected by subsequent tightening under sterile conditions. Refrigeration Seems to offer no difficulty even when ice crystals are formed. Stainless steel Construction and handtightening could he incorporated into the design without major difficulty. Although only three sizes have been built to date0.7-ml., l.O-ml,, and 5mI. capacity-it should he practical to extend the range of sizes to smaller and larger syringes. Thr plunger and barrel parts of the 0.7-ml. syringe provide a nice17 controllahle pipetter which requires no grease and is sufficiently air-tight even when adjusted for moderate resistance. For pistons of 3-mm. diameter or less it is preferable, because of the simpler construction, to make the plunger a solid metal rod and use a looefitting metal barrel with a Teflon packing and a packing nut to make the sed. A stainless steel piston 2.3 mm. in dizmeter made in this way [Chapman-Andresen, C., and Robinson, C . V., Cmnpt. rad. trav. Lab. Carlsberg, Ser. chim., 28, 343 (1953)l has proved to he satisfactory for fairly rapid delivery of several microliters of water, adjustable to 10.01 PI. In this type of construction a much smoother action is obtained if the plunger is polished lengthwise than if i t is polished around.