
    Application of Siegfried GOTTFRIED and Lily Baxendale.
    Patent Appeal No. 7376.
    United States Court of Customs and Patent Appeals.
    April 15, 1965.
    
      John T. Miller, Springfield, Ya. (A. Ponack, Washington, D. C., of counsel), for appellants.
    Clarence W. Moore, Washington, D. C. (J. F. Nakamura, Washington, D. C., of counsel), for the Commissioner of Patents.
    Before WORLEY, Chief Judge, and RICH, MARTIN, and ALMOND, Judges.
   ALMOND, Judge.

This appeal is from a decision of the Board of Appeals affirming the examiner’s rejection of process claims 1-5 in appellants’ application. The invention is a method of converting 18P-glycyr-rhetinic acid to 18a-glycyrrhetinic acid.

Claim 1 reproduced below is illustrative:

“A process for the production of 18a-glycyrrhetinic acid, wherein 18|3-glycyrrhetinic acid is heated with an alkali metal hydroxide in a medium selected from the group consisting of an alcoholic and an aqueous-alcoholic medium.”

The reference relied upon by the examiner is Beaton, J.Chem.Soc. pp. 3126-29 (1955). Beaton contains the following disclosure:

Formula I is 183-glycyrrhetinic acid when both R and R' are hydrogen. Formula II is 18a-glycyrrhetinic acid when both R and R' are hydrogen. It can be seen that the a and |3 forms of the acid differ from each other only in the position of the hydrogen atom on the 18-carbon atom. Appellants’ process is represented by the above equation when both R and R' are H and when the reaction medium contains a metal hydroxide (OH&emdash;). Beaton does not specifically dis- close the claimed reaction. The following portion of Beaton is the most significant:

“Prolonged treatmentof methyl glycyrrhetate with concentrated alkali gives an acid different from, and isomeric with, glycyrrhetic acid [18|j-glycyrrhetinic]. The isomeric acid is also obtained by heating a solution of glycyrrhetic acid in acetic acid containing concentrated hydro- chloric acid.
Acid
(II; R = R' = H).-&emdash;-(a) A mixture of methyl glycyrrhetate (I; R = H, R' = Me) (10 g.) and potassium hydroxide (400 g.) in water (200 c.c.) and ethanol (1800 c.c.) was re- fluxed for 120 hr. The solution was diluted with water (2 1.), then acid- ified with concentrated hydrochloric acid, and the precipitated solid collected. Repeated crystallisation from chloroform-methanol yielded 18a&emdash;glycyrrhetic acid * * The examiner rejected the claims as obvious in

The examiner rejected the claims as obvious in view of Beaton, reasoning as follows:

“It is considered that the instantly claimed treatmentof glycyrrhetic acid is rendered obvious by the refer- ence treatment of the corresponding ■ methyl ester, since for purposes of isomerization the methyl ester is suggestive of the free acid, the isomerization being around the 18-carbon position.”

The above language indicates that the statutory basis of the rejection was 35 U.S.C. § 103. The board affirmed the examiner, stating: “We agree in general with the Examiner’s position * * However, the board then went on to say that appellants’ process was inherent in the Beaton disclosure, stating:

“Although the stated starting material in Beaton et al. is the methyl ester of beta glycyrrhetinic acid it is quite apparent from the disclosure that this ester, in the alkaline medium indicated above, first hydrolyzes to the corresponding beta glyc-yrrhetinic acid, which latter must then isomerize during prolonged treatment to produce alpha glycyr-rhetinic acid fully in accordance with the terms of appellants’ claims. * * *»

Appellants claim that the board's language is indicative of a rejection under 35 U.S.C. § 102. The solicitor maintains that the rejection is based only on 35 U.S.C. § 103. We feel that the decision can be affirmed on the basis of obviousness and thus will not consider the question of a “102 rejection.”

The solicitor’s position is that it would be obvious to substitute the 183-acid for 183-ester in the Beaton isomerization of 183-ester to 18a-acid. He points out that isomerization occurs at the 18-carbon which is removed from the acid or ester group and that it is obvious that isomerization would occur in the presence of a base regardless of the particular R'. A further suggestion would come from the equation in Beaton set forth above. Beaton gives only two possibilities for R', H and CHS. When R' in both formulas is H, and basic reaction medium is used, the claimed invention is depicted by the Beaton equation above. Appellants argue that the equation cannot be considered generic but that it was only meant by Beaton to cover the reactions actually carried out by him. Even if this is true, however, the equation encompasses only a rather limited number of reactions (when R and R' áre limited to H and methyl). Therefore, we think that inspection of the equation by one of ordinary skill in the art would readily suggest the isomerization of the 183-acid in basic medium even though the reaction is not fully disclosed by the equation.

Although we do not necessarily agree with the board that the claimed isomer-ization inherently occurs during the Beaton conversion of the 183-methyl ester to the 18a-acid in basic medium, we think that such a reaction mechanism is quite likely. Beaton states that hydrolysis of the 183-methyl ester in 3% potassium hydroxide gave 5% 183-acid after two hours, the remainder being “unchanged ester.” Since prolonged treatment in a stronger basic solution results in conversion of the 183-ester to the 18a-aeid, one could expect that conversion of the 183-ester to the 183-acid occurs first and that isomerization of 183-acid as claimed is the second step of the reaction. Thus, the claimed reaction would also be suggested by a consideration of the reaction mechanism.

The Beaton disclosure, considered in its entirety, contains a teaching which we think would make it obvious, within the meaning of 35 U.S.C. § 103, to isomerize 183-acid to 18a-acid in a basic medium.

Appellants point to the fact that in the two examples in their specification the yields of 18a-acid from 183-acid were 55% and 77% compared with Beaton’s yield of 38% in going from the 183-ester to the 18a-acid. The reaction conditions differed in all three reactions, and of course appellants’ starting material is different. We cannot agree that the differences in yield between appellants’ examples and the Beaton example are persuasive of unobviousness. The differences might well be due to the different reaction conditions. Clearly the optimum reaction time and base concentration are not appellants’ invention. If the improved yields do in fact result from the direct isomerization, we do not feel that when weighed with the evidence of obviousness set forth above, the improvement is so great as to result in a finding of unobviousness.

Por the foregoing reasons, we affirm the board’s decision.

Affirmed.

SMITH, J., concurs in the result. 
      
      . SerialNo. 44,258, filed July 21, 1960 for “Process for the Production of 18a Glycyrrhetinic Acid.” ****** “18a&emdash;Glycyrrhetic
      
     
      
      . The number 18 has been added toiden- tify the hydrogen on the 18-carbon atom. identify the hydrogen on the 18-carbon atom.
     