Detection of adenovirus by rapid 24-well plate centrifugation and conventional cell culture with dexamethasone

Two methods for rapid detection of adenovirus were tested: (i) 24-well plate centrifugation followed by staining with a monoclonal antibody after incubation for 24 h and 48 h, and (ii) pretreatment of A549 cells used in conventional cell culture and 24-well plate centrifugation with 10(-5)M dexamethasone. Twenty-seven clinical isolates of adenovirus and 12 specimens from which adenovirus had been recovered were included in the analysis. Both isolates and specimens had been frozen at -70 degrees C for up to 6 months. By 24-well plate centrifugation both with and without dexamethasone, 21 (78%) and 27 (100%) isolates were positive for adenovirus at 24 h and 48 h, respectively. Of the specimens, 6 (50%) and 8 (67%) were positive by 24-well plate centrifugation without dexamethasone at 24 h and 48 h, respectively, whereas with dexamethasone 3 (25%) were positive at 24 h and 7 (58%) were positive at 48 h. Overall, combining isolates and specimens, the sensitivity of 24-well plate centrifugation for detection of adenovirus at 24 h was 69% without dexamethasone and 62% with dexamethasone, and at 48 h the sensitivity was 90% without dexamethasone and 87% with dexamethasone. The specificity under all conditions tested was 100%. In conventional tissue culture dexamethasone inhibited recovery of adenovirus. Without dexamethasone, adenovirus was recovered from all 39 samples within 7 days after inoculation; however with dexamethasone pretreatment, the virus was detected in only 31 (79%) of the samples tested in the same period of time.     

Conventional tube cell culture compared with centrifugal inoculation of MRC-5 cells and staining with monoclonal antibodies for detection of herpes simplex virus in clinical specimens.

During a 15-month period, two methods for detection of herpes simplex virus (HSV) in 699 clinical specimens were compared: (i) 24-well-plate centrifugation (24WPC) with MRC-5 cells and staining with type-specific monoclonal antibodies (Syva Co., Palo Alto, Calif.) after incubation for 16 to 18 h and (ii) conventional tube cell culture with primary rabbit kidney and A549 cells. HSV was identified by conventional tube cell culture in 165 (24%) of 699 specimens and by the 24WPC method in 116 (17%) of 699 specimens. One specimen was positive for HSV by the 24WPC method alone, compared with 50 specimens positive only by conventional cell culture (P less than 0.0001). The sensitivity, specificity, and positive and negative predictive values of the 24WPC technique with MRC-5 cells for detection of HSV in clinical specimens were 70, 99.8, 99, and 91%, respectively. Centrifugal inoculation of MRC-5 cells in 24-well plates and staining with monoclonal antibodies after incubation for 16 to 18 h is an insensitive means of detecting HSV in clinical specimens and should not replace conventional tube cell culture with primary rabbit kidney cells.     

Rapid 24-well plate centrifugation assay for detection of influenza A virus in clinical specimens

Two methods for detection of influenza virus in 234 clinical respiratory specimens were compared: (i) a 24-well plate-centrifugation assay using Madin Darby canine kidney (MDCK) cells and staining with monoclonal antibody pools to influenza A and B (Centers for Disease Control, Atlanta, GA) after incubation for 16 h and 40 h, and (ii) conventional tube cell culture using MDCK cells and primary rhesus monkey kidney cells. Influenza A was identified in 23 specimens (10%). No influenza B was recovered. The rapid centrifugation and tissue culture methods were positive for influenza A in 21 (91%) and 16 (70%) of the 23 specimens, respectively. Fourteen specimens were positive by both methods, 2 were positive by tissue culture alone, and 7 were positive by rapid centrifugation only. Of the 21 specimens positive by rapid centrifugation, 16 (76%) were detected after overnight incubation, and 5 (24%) were positive only after incubation for 40 h. Cytopathic effect was observed in 13 (81%) of the 16 isolates identified by tissue culture after an average of 6 days, and 3 (19%) were identified only by hemadsorption and staining with monoclonal antibodies at day 10. Compared with conventional tissue culture, the 24-well plate centrifugation assay is a more rapid and more sensitive method for detecting influenza virus in clinical specimens.     

Detection and serotyping of herpes simplex virus in MRC-5 cells by use of centrifugation and monoclonal antibodies 16 h postinoculation.

Monoclonal antibodies (Syva Co., Palo Alto, Calif.) were used for the detection and serotyping of herpes simplex virus (HSV) isolates by immunofluorescence 16 h after inoculation of MRC-5 monolayers in 3.7-ml shell vials and after low-speed centrifugation. A total of 119 specimens were inoculated into conventional tube cell cultures and shell vials. Of 98 specimens inoculated on the same day of receipt in the laboratory (fresh specimens), all 23 (23.5%) HSV-positive specimens were identified by serotype in 16 h in shell vials by immunofluorescence, whereas only 8 of 23 HSV-positive specimens (34.8%) produced cytopathic effects in conventional tube cell cultures in this time period. Similarly, of 21 original specimen extracts previously determined to be culture positive for HSV (stored specimens), all were detected and serotyped by the immunofluorescence test with monoclonal antibodies 16 h postinoculation compared with the recognition of only 8 of these isolates (38.1%) by cytopathic effect that soon. This technique of centrifugal inoculation of HSV in shell vials containing MRC-5 cells permitted detection of this virus in all positive specimens with serotype determination within 16 h postinoculation.     

Comparison of diploid fibroblast and rabbit kidney tissue cultures and a diploid fibroblast microtiter plate system for the isolation of herpes simplex virus.

We evaluated the relative sensitivities of two cell systems (rabbit kidney [RK] and human diploid fibroblast [DF; human embryonic tonsil]) in standard tube cultures versus DF cells in a 48-well microtiter plate system for the detection of both symptomatic and asymptomatic herpes simplex virus (HSV) infection. At least one system isolated HSV in 111 of 809 specimens (13.7%). HSV was isolated in RK tube cultures from 110 specimens (99%), in DF tube cultures from 91 specimens (82%), and in DF microtiter plates from 95 specimens (86%). The frequency of HSV isolation varied with the anatomic site and the presence or absence of a herpetic lesion. The sensitivities of the three culture systems remained similar whether the specimens were obtained from lesions or whether the specimens were taken to determine if asymptomatic excretion of HSV was present. While RK tube cultures were more sensitive than DF tube cultures, the DF microtiter plate system was as sensitive as DF tube cultures and its use is supported as a cheaper and less labor-intensive method for the detection of HSV.     

Amplification techniques for detection of herpes simplex virus in neonatal and maternal genital specimens obtained at delivery.

Viral culture amplification methods, including centrifugation, use of a cell pretreatment medium containing dimethyl sulfoxide and dexamethasone (DEX medium), and three commercial enzyme immunoassays (EIAs), were evaluated for use with low-titer, asymptomatic neonatal and obstetric samples obtained at delivery. The 4.5-h Ortho EIA was 59.7% sensitive at 16 h compared with 86.4% at 36 h in a spin-amplified format (SAT-EIA). After 36 h with DEX medium, the SAT-EIA was 97.3% sensitive using the 2.5-h modified Ortho EIA and 69.9% sensitive using the Fairleigh Dickinson EIA. Herpes simplex virus (HSV) cytopathic effect was reported in tube culture 1 to 2 days earlier in 8.1 to 35.9% of cells with DEX medium. Overall, the SAT-EIA using the modified Ortho EIA and cells with DEX medium detected 147 of 153 (96.1%) HSV isolates from samples obtained predelivery and 93.1% of 29 HSV positives from samples obtained at labor and delivery, with specificities of 100 and 99.9%, respectively, at 36 h.     

Detection of herpes simplex virus by a nonradiometric spin-amplified in situ hybridization assay.

An in situ hybridization kit (Diagnostic Hybrids, Inc., Athens, Ohio) was evaluated for use in the detection and identification of herpes simplex virus (HSV) from clinical specimens. For in situ hybridization, a 10-min spin amplification onto monolayers of African green monkey kidney cells (CV-1) in 24-well polystyrene dishes, 24-h culture amplification, and hybridization with an alkaline phosphatase-labeled DNA probe were used. A total of 648 specimens were tested, including 275 specimens from patients with symptomatic diseases sent specifically for HSV detection and 373 specimens from asymptomatic immunocompromised patients sent for detection of HSV shedding. Overall, the sensitivity of the hybridization assay was 97.8% (131 of 134 specimens), with 105 of 105 (100%) specimens from symptomatic patients and 26 of 29 (89.9%) specimens from asymptomatic patients being detected. The three specimens that were false negative by in situ hybridization had low virus titers, as determined by tissue culture. The specificity was 99.6% (512 of 514 specimens). The rapid, accurate results suggest that the in situ hybridization kit may be used as an alternative to conventional tissue culture for the detection of HSV.     

Comparison of primary rabbit kidney and MRC-5 cells and two stain procedures for herpes simplex virus detection by a shell vial centrifugation method.

By using a conventional tissue culture method as a standard, four shell vial centrifugation culture (SVC) formats were compared for herpes simplex virus (HSV) detection in 300 clinical samples. Both MRC-5 and primary rabbit kidney (PRK) cells were used in the conventional and SVC systems. In addition, both a direct monoclonal fluorescent antibody to HSV (MAb-FA; Syva Corporation, Palo Alto, Calif.) and an indirect HSV polyclonal antibody-horseradish peroxidase stain (poly-HRP; Difco Laboratories, Detroit, Mich.) were used to stain shell vials of both cell types. Conventional tubes were incubated for up to 7 days with daily examination for cytopathic effect, which was confirmed as HSV by staining with an MAb-FA. Shell vials were inoculated, centrifuged, incubated for 16 to 24 h, and stained directly with MAb-FA or indirectly with a poly-HRP stain. Of the 300 specimens examined, 82 (27%) were HSV positive by conventional tissue culture. PRK cells detected 81 (99%) positive specimens, compared with 74 (90%) specimens detected with MRC-5 cells. Of the 82 positive specimens by conventional culture, the SVC formats detected 68 by MRC-5 and MAb-FA, 74 by MRC-5 and poly-HRP, 64 by PRK and MAb-FA, and 77 by PRK and poly-HRP. Therefore, PRK stained by an indirect method with poly-HRP was the most sensitive of the SVC formats tested, detecting 94% of the positive specimens.     

Clinical comparison of two assays for rapid detection of cytomegalovirus early nuclear antigen

Three methods for detection of cytomegalovirus (CMV) in 218 clinical specimens were compared: (1) shell vial assay to detect the early nuclear antigen after incubation for 16 hours and 40 hours (Syva Company); (2) 24-well plate assay to detect the early nuclear antigen after incubation for 16 hours (DuPont); and (3) convention tissue cell culture. CMV was detected in 26 specimens (12%) by one or more of these methods. With the shell vial assay, 12 (46%) and 15 (58%) specimens were positive after incubation for 16 hours and 40 hours, respectively. CMV was detected in 17 specimens (65%) by the 24-well plate assay. There was no significant difference in the detection of CMV between these assays. CMV was identified by conventional tissue culture in 15 of 22 (68%) evaluable cultures after an average of 14.2 days. More specimens were positive by conventional culture than by the 16-hour shell vial assay (P = 0.035). For optimal detection of CMV in clinical specimens, both conventional tissue cell culture and an early antigen assay should be performed. The two early antigen assays evaluated in this study yielded comparable results. However, the 24-well plates are more easily manipulated, and the 24-well plate assay, as performed, was easier to interpret and more cost efficient.     

Comparison of two rapid culture methods for detection of cytomegalovirus in clinical specimens.

The conventional virus isolation technique was compared with a 24-h shell vial centrifugation culture technique and with a 48-h tube culture method for the detection of cytomegalovirus (CMV) in MRC-5 cells. Of 200 clinical specimens tested, 41 were positive for CMV by at least one procedure. Indirect immunoperoxidase staining was positive for 32 (78.0%) of 41 specimens in the tube culture method and for 30 (73.2%) of 41 specimens in the shell vial centrifugation method. CMV was detected in 23 (56.1%) of 41 specimens by the development of cytopathic effect within 14 days.     

Detection of cytomegalovirus by 24-well plate centrifugation assay using a monoclonal antibody to an early nuclear antigen and by conventional cell culture

During a 12-month period, two methods for detection of cytomegalovirus (CMV) in 1624 clinical specimens were compared: (1) centrifugal inoculation of MRC-5 cells on coverslips in 24-well plates and staining with a monoclonal antibody to CMV early nuclear antigen after incubation for 40 h (EA assay), and (2) conventional tube cell culture. CMV was identified in 183 (11.3%) specimens from 113 different patients. The EA assay was positive for CMV in 144/183 specimens (79%), and CMV was detected by recognition of specific cytopathic effect (CPE) in conventional cell culture in 143/183 (78%). Both methods yielded CMV in 56% of the specimens (104/183). CMV was detected by EA assay alone in 22% (40/183) and only by CPE in 21% (39/183) of the positive specimens. When all specimen types were considered, there was no significant difference in the detection of CMV between the two methods. However, bronchoalveolar lavage (BAL) fluids yielded CMV more frequently by EA assay than by CPE (58 compared to 48 of 574, p = 0.0178), and CMV was detected in blood specimens more often by CPE than by EA assay (20 compared to one of 149, p less than 0.0001). In addition to CMV, other viruses were recovered by conventional tube cell culture, including herpes simplex virus (HSV) type 1 from 17 BAL fluids (two of which were positive for CMV by EA assay) and one liver biopsy and adenovirus serotype 4 from four separate urine specimens and three gastrointestinal tract biopsies from one patient.(ABSTRACT TRUNCATED AT 250 WORDS)     

Rapid detection of cytomegalovirus by 24-well plate centrifugation with the use of a monoclonal antibody to an early nuclear antigen

Two methods for the detection of cytomegalovirus (CMV) in 457 clinical specimens were compared: (1) centrifugal inoculation of MRC-5 cells seeded on coverslips in 24-well plates and staining with a monoclonal antibody to CMV early nuclear antigen after incubation for both 16-18 hours (EA-1) and four days (EA-4); and (2) conventional tube cell culture. CMV was identified in 50 (11%) specimens from 34 different patients. EA-1 and EA-4 had positive results for CMV in 32 (64%) and 36 (73%) of the specimens, respectively. Positive inclusions were present on only one coverslip in 31% of the cases by EA-1 and in 10% by EA-4. The number of inclusions was not necessarily predictive of tissue culture results. CMV was recovered by conventional tissue culture from 27 specimens (54%) after an average of 17 days (range, 6-26 days). One specimen, positive for CMV by EA-4, yielded herpes simplex virus (HSV), and from 9 of the 407 CMV-negative specimens, another virus was recovered: HSV from 6 specimens and varicella zoster virus, adenovirus, and enterovirus from one specimen each. CMV was detected in significantly more specimens by EA-4 than by tissue culture (P = 0.037). However, there was no significant difference in the detection of CMV between EA-1 and EA-4 or between EA-1 and conventional culture. The authors' data suggest that for maximum recovery of CMV from clinical specimens, both an early antigen assay and conventional tissue culture should be performed. For urine specimens it appears that inoculation of two coverslips followed by staining after overnight incubation is adequate. To optimize the yield of the early antigen assay when testing specimens other than urine, the authors recommend inoculating three coverslips, two of which should be stained after overnight incubation, and, if necessary, the third coverslip could be stained after a more prolonged incubation period.     

探讨肺纤维化时表达单核细胞趋化蛋白-1的主要效应细胞

目的研究凝血酶对人肺上皮细胞及正常人肺成纤维细胞释放单核细胞趋化蛋白-1（MCP-1）的调节作用。方法人肺支气管上皮细胞（normal human bronchial epithelial cells,NHBE）、人肺癌上皮细胞系A549及正常人肺成纤维细胞（normal human lung fibroblasts,NH-LF）分别培养于96孔或6孔板培养板内,凝血酶诱导4h和24h后,收集上清液及细胞裂解液。ELISA方法检测MCP-1蛋白水平;实时荧光定量RT-PCR技术检测MCP-1mRNA水平。结果凝血酶可诱导NHBE、A549及NH-LF细胞释放MCP-1,但NH-LF细胞的MCP-1释放量远远高于NHBE及A549细胞;凝血酶还可诱导NH-LF细胞mRNA表达。结论人肺成纤维细胞可能是肺内表达MCP-1的主要来源细胞,因此在肺纤维化时可能起重要作用。     

Comparison of standard culture methods, a shell vial assay, and a DNA probe for the detection of herpes simplex virus.

A nonradioactive, biotinylated herpes simplex virus (HSV) DNA probe, a shell vial (rabbit kidney cell) culture assay enhanced by a direct fluorescent (HSV monoclonal)-antibody stain at 16 to 20 h postinoculation, and conventional tube cultures with confirmation via HSV-specific (polyclonal antibody) immunoperoxidase assay were compared for 199 specimens. The predictive values of the positive results were 54.5% for the probe, 95.9% for the shell vial assay, and 100% for the conventional culture methods, while the predictive values of the negative tests were 68.1, 84.0, and 98.4%, respectively. We conclude that the DNA probe (sensitivity, 24.5%; specificity, 88.3%) and the shell vial assay (sensitivity, 66.2%; specificity, 98.4%) cannot be substituted for conventional tube culture techniques (sensitivity, 97.1%; specificity, 100%) in the routine identification of HSV in our laboratory.     

Detection of influenza virus by centrifugal inoculation of MDCK cells and staining with monoclonal antibodies.

Two methods for detection of influenza virus in 451 clinical respiratory specimens were compared: (i) 24-well-plate centrifugation with Madin-Darby canine kidney (MDCK) cells and staining with monoclonal antibody pools to influenza viruses A and B (Centers for Disease Control, Atlanta, Ga.) in an indirect immunofluorescence assay after incubation for 40 h, and (ii) conventional tissue cell culture with primary monkey cells and hemadsorption. For 100 of these specimens, direct examination of smears by the direct fluorescence assay with monoclonal antibodies (Boots Cell Tech/API Analytab Products, Plainview, N.Y.) was also performed. Influenza A virus was recovered from 28 specimens by tissue cell culture after incubation for an average of 4.75 days (range, 2 to 14 days). Influenza B virus was recovered from 35 specimens by tissue culture after incubation for an average of 5.4 days (range, 3 to 14 days). By the centrifugation assay, 23 specimens were positive for influenza A virus and 30 were positive for influenza B virus. All specimens positive by the centrifugation assay were also positive by conventional tissue cell culture. The sensitivities of the centrifugation assay were 82% for detection of influenza A virus and 86% for influenza B virus (84% overall); the specificity of the assay was 100%. Of the 100 specimens studied by direct examination, 15 were positive for influenza virus by both conventional culture and centrifugation assay; however, the direct-smear results for these 15 specimens were negative in 13 cases and inconclusive in 2. The centrifugation assay is a rapid and specific method for detection of influenza A and B viruses in clinical specimens, and it can serve as a valuable and cost-efficient adjunct to conventional culture methods.     

Alternative cell line for virus isolation.

A human lung carcinoma cell line (A549) was compared with various other cell lines to determine susceptibility to viral growth. In the first phase of the study, A549 cells were compared with human embryonic kidney (HEK) and cynomolgus monkey kidney (CMK) cells for isolation of upper-respiratory disease viruses by using 1,248 throat swab specimens from basic-combat trainees. Of the 552 virus isolates, 507 were adenoviruses, 41 were polioviruses, and 4 were herpes simplex viruses (HSV). Of the isolates, 518 (93.8%) were isolated in A549 cells, 480 (87.0%) were isolated in HEK cells, and 262 (47.5%) were isolated in CMK cells (P less than 0.001). In the second phase of the study, A549 cells were compared with a human diploid fibroblast cell strain (MRC-5) and Vero monkey kidney (VMK) cells for the isolation of HSV from 1,157 specimens submitted for culture. Of the 227 HSV isolates, 210 (92.5%) were isolated in A549 cells, 202 (89.0%) were isolated in VMK cells (P greater than 0.1 for A549 versus VMK cells), and 167 (73.6%) were isolated in MRC-5 cells (P less than 0.001 for A549 versus MRC-5 cells). These results suggest that A549 cells are more susceptible to adenovirus infection and at least as susceptible to HSV infection compared with the other cell cultures evaluated. Detracting factors for the use of A549 cells were a slight loss of sensitivity to adenovirus at passage 120 and a concurrent change in the morphology of the cells. The A549 cell line proved to be an efficient, practical, and economical alternative cell system for the isolation of adenovirus and HSV in particular. Initial indications are that other clinically significant viruses may be grown in A549 cells; however, additional studies need to be performed.     

Comparison of standard tube and shell vial cell culture techniques for the detection of cytomegalovirus in clinical specimens.

A monoclonal antibody was used to detect an early antigen of cytomegalovirus (CMV) by fluorescence 16 h after inoculation of MRC-5 monolayers in 1-dram (ca. 3.7-ml) shell vials and low-speed centrifugation. Of 770 specimens (urine, blood, lung tissue, sputum) processed in shell vials, 124 (16%) were positive for the virus at 16 h postinfection. CMV was isolated in standard tube cell cultures (average time, 9 days) from only 88 specimens, but there were no instances (with the exception of 2 blood specimens) in which CMV was recovered from tube cultures but not from shell vials. Additional specimens from 18 patients were positive in the shell vial assay but negative in the conventional tube cell culture assay. Other specimens from 14 of the 18 patients yielded CMV in conventional tube cell cultures. Of the 4 patients from whom CMV was not recovered from other specimens by conventional tube cell culturing, all had evidence of recent CMV infections, as indicated by a fourfold or greater rise in antibody titer. The specificity of the shell vial assay for the detection of CMV is supported by assays of other specimens from the same patients yielding the virus or serological evidence indicating recent infections, the known enhancement of CMV detection after centrifugation of the shell vials, and the distinct and easily recognizable fluorescence confined to the nuclei of CMV-infected cells. Our data indicate that the shell vial cell culture assay for the detection of CMV is as specific as and more sensitive than conventional tube cell culturing for the diagnosis of CMV infections.     

Detection of genital herpes simplex infections by a tissue culture-fluorescent-antibody technique with biotin-avidin.

Several cell lines were evaluated for their suitability for rapid detection of herpes simplex virus (HSV) from clinical genital specimens. Human foreskin fibroblast (Flow 7000) cells were found to be most suitable in terms of sensitivity and adherence characteristics. HSV in clinical specimens was isolated by a standard tissue culture method by monitoring the cytopathic effect, and the titers of the HSV-positive specimens were determined. More than 65% of the HSV-positive genital specimens showed titers of less than or equal to 10(4) 50% tissue culture infective doses per ml. The standard tissue culture-cytopathic effect method required 3 to 10 days for detection of HSV in clinical specimens of low infectivity. A more rapid technique was developed which involved a short-term tissue culture (24 h) on Lab-Tek chambers followed by staining with biotin-linked HSV antibody and avidin-fluorescein conjugate. Because of the high binding affinity of this system due to multiple binding of biotin to avidin and multiple attachment of biotin to the antibody molecule, the biotin-avidin fluorescent-antibody technique produced a quality of fluorescence far superior to that of the conventional fluorescent-antibody techniques. The tissue culture-biotin-avidin fluorescent-antibody method was as sensitive as the tissue culture-cytopathic effect test. This method provides an improved, more rapid test (26 h) for detecting HSV in clinical specimens.     

Successful use of shell vial centrifugation and 16 to 18-hour immunofluorescent staining for the detection of influenza A and B in clinical specimens

The rapid diagnosis of influenza A and B infections is beneficial for the proper management of patients with acute respiratory illness. The authors evaluated a shell vial centrifugation method to detect these viruses 16-18 hours postinoculation and compared it with conventional tube cell culture. Rhesus monkey kidney cells were used in both methods. Conventional culture of 334 respiratory specimens recovered 64 influenza isolates; the average time to positivity was 4.1 days. Low-speed shell vial centrifugation with polyclonal immunofluorescent staining 16-18 hours postinoculation was performed on 96 fresh specimens and on an additional 38 frozen specimens. These 134 specimens contained 49 of the 64 total influenza-positive specimens. The shell vial method yielded a sensitivity of 90.9% and 87.5% for fresh and frozen specimens, respectively, as compared with conventional tube cell culture. The authors conclude that the shell vial method is an important adjunct to conventional culture for the rapid detection of influenza A and B in clinical specimens.     

Enhanced isolation of influenza virus in conventional plate cell cultures by using low-speed centrifugation from clinical specimens

To determine whether low-speed centrifugation as a means of amplifying viral adsorption to target cells can enhance the sensitivity of conventional techniques for the isolation of influenza virus from clinical specimens, the authors conducted a simultaneous comparison between two conventional plate cell cultures--one with and one without centrifugation (700 X g, 60 minutes). Of 26 influenza virus isolates obtained from 528 clinical specimens, 17 were more efficiently isolated by the centrifugation assay compared with conventional culture methods. Centrifugation-assisted methods were found to be efficient in the recovery of 17 of 20 isolates (85%) not identified on first passage by conventional techniques. The number of isolates obtained with centrifugation was 1.5 times as high as that obtained with no centrifugation after three passages. The two assays were significantly different in the isolation of influenza virus (P less than 0.01). Since low-speed centrifugation may increase the infectivity of influenza virus in cell culture, this technique may prove useful in the efficient and rapid isolation of this virus from clinical specimens.