On December 7, 1978, defen *325 dant was convicted by a jury of felony murder, MCL 750.316; MSA 28.548. The victim, Mitchell Lechtanski, was killed during a burglary of his home. Although there apparently were no eyewitnesses, the prosecution presented other evidence linking defendant directly to the crime. Defendant had told an investigating officer that he did not know the victim and had never been to his house, yet defendant’s fingerprints were found at the scene of the crime. An analysis of defendant’s blood revealеd properties which corresponded positively to those of bloodstains found at the scene. One of defendant’s friends testified that, on the day before the crime was committed, defendant told him that he planned tо perpetrate a robbery on the north side of town. The witness further testified that on the same day that the offense was committed defendant told him that he had killed Lechtanski.
Defendant argues that the trial court committed reversible error when it admitted expert testimony concerning the comparison, by use of the technique of electrophoresis, of bloodstains found at the scene of the crime to a sample of defendant’s blood. Defendant contends that the prosecutor’s expert was not disinterested and impartial and that he failed to establish at trial that the technique he used had gained general acceptance in the scientific community.
Mark Stolorow, a forensic serologist working for the Michigan State Police, was the only expert witness to testify regarding the blood analysis performed by the use of electrophoresis. Stolorow testified that he had a master’s degree in forensic chemistry, that he taught criminalistics at a college, and that he had been active in the research and development of electrophoresis as a technique for comparing blood samples.
*326 Stolorow testified that electrophoresis is a method used for the biochemical analysis of enzymes and proteins in blood. A blood sample is placed into a gel and an eleсtrical charge is applied. The electrical charge causes the enzymes and proteins to move into a pattern. A type of photograph is taken then. Information about the blood factors that the blood contains can be derived according to the patterns that form. The blood sample can then be classified into a particular population grouping according to the particular factors found therein. Stolorow testified that he had directed a research project involving 1,000 persons in the Detroit area for the purpose of determining the frequency that certain blood factors would be found in the general population. The results were checked internally for their statistical significance and were also compared to figures that had been established in other parts of the United States and around the world.
Stоlorow testified that the technique of electrophoresis is simple and dates back many years in the field of biology. He further testified that only recently had the technique been adapted for use with very small samples оf bloodstains, but that the techniques developed were, at the time of trial, employed routinely in case work. Stolorow stated that he had testified regarding the results of electrophoresis analysis in circuit courts in six Michigаn counties and in Detroit Recorder’s Court over the past several years. He further stated that electrophoresis is used in Red Cross clinics, in hospitals, at universities, in medical schools, and wherever studies in genetics are performed, as well as in crime laboratories, and that he personally knew of half a dozen people in Michigan, not associated with crime laboratories, who performed electrophoresis аnalysis on a routine basis.
*327 Regarding the specific testing he performed in the present case, Stolorow testified that the blood factors that he was able to detect in a bloodstain found on the sidewalk outside the viсtim’s home occurred in only 1.3 percent of the population and that the blood factors detected in a bloodstain found on the victim’s porch occurred in only 1/2 of 1 percent of the general population. He further testified that the blood factors detected in the above bloodstains were also found to be present in the blood sample taken from defendant.
The initial question that must be addressed is what is the propеr test to be applied in determining the admissibility of the scientific evidence presented here. In
People v Barbara,
"The Michigan test presently applied to determine the admissibility of polygraph testimony is that which we enunciated in People v Becker,300 Mich 562 , 566;2 NW2d 503 (1942), and repeated with approval in People v Davis,343 Mich 348 , 370;72 NW2d 269 (1955), that there be:
" 'testimony offered which would indicate that there is at this time a general scientiñc recognition of such [polygraph] tests. Until it is established that reasonable certainty follows from such tests, it would be еrror to admit in evidence the result thereof.’ ” (Emphasis added.)
The Barbara Court further indicated, in accordance with Frye v United States, 54 US App DC 46; 293 F 1013 (1923), that the scientific technique used must be accepted in the particular field in which it belongs and that such acceptance can be establishеd only by testimony of disinterested and impartial experts in the field.
*328
The
Barbara
Court did not state that the
Davis/ Frye
standard was applicable in determining the admissibility of scientific evidence other than polygraph results. In the subsequent case of
People v Tobey,
The applicability of the
Davis/Frye
test to the admission of scientific evidence other than polygraph results has been criticized in McCormick, Evidence (2d ed), §203, p 491, as being too strict and preventing the admission of probative evidence which the jury should be givеn the opportunity to weigh in light of any opposing testimony.
2
The
Barbara
Court recognized this criticism at 379-380, and seemed to recognize that the strict
Davis/Frye
rule did not apply to scientific evidence in general.
Barbara, supra,
380, 383, 404. Although the
Barbara
Court stated that it had applied the
Davis/Frye
rule in the past to the admission of scientific testimony where the jury was asked to determine thе accuracy of scientific devices "in the face of a difference of scientific opinion as to their
*329
accuracy”, see
People v Morse,
In the recently decided case of
People v Powell,
The present case is similar to Powell, supra, in several respects. In Powell, there was no question that the use of X-ray equipment was establishd and áccepted within the mеdical profession. In the present case, Mark Stolorow testified that electrophoresis was a simple technique that dated back many years in the field of biology and was employed widely in medical facilities and universities. The reasonable inference is that electrophoresis is a proven scientific technique. The present case is also similar to Powell in that there is no problem of deceptive efforts that might interfеre with the accuracy of the scientific technique, as has been thought to be possible in the case of polygraph or voice print analysis.
In Powell, the principal issue was the employment of the X-ray technique for the purpose of identifying a corpse, as opposed to the underlying scientific acceptability of the X-ray procedure itself. Similarly here, the principal question involves the use of the electroрhoresis technique to compare bloodstains found at the scene to known blood samples rather than the underlying acceptability of the electrophoresis technique itself. Therefore, the question was properly one of opinion testimony within the competence and province of an expert witness and, although the testimony in the present case was presented by an arguably interested witness, the witness was clearly qualified in the fields of chemistry and blood analysis and the jury was entitled to hear his testimony and weigh its probative value.
Defendant also argues that the testimony of the prosecution’s expert witness was inadmissible becausе it merely included defendant in a class of
*331
possible defendants. In
People v Sturdivant,
"We find that * * * blood type evidence, when used solely for the purpose of including a defendant in a class of possiblе defendants, has no probative value. Therefore, we hold that the trial court erred in admitting such evidence.”
However, the Court distinguished the case of
People v Gillespie,
24 Ill App 3d 567;
Defendant’s other claim of error is without merit.
Affirmed.
Notes
The
Davis/Frye
rule has also been applied in reviewing the admissibility of scientific evidence other than polygraph results in
People v Watkins,
Application of the Davis/Frye rule to the admission of scientific evidence other than polygraph results was also criticized in 18 Wayne L Rev 1365, 1383-1398 (1972).