Business: ANDI moving ahead

Because the system contains both an immu- noaffinity column and standard RP columns, you can have multiple samples, one on each column, at the same ti...
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Glucose monitoring gets under the skin Elevated glucose is not just a symptom of diabetes; it is a cause of the pathology, says Mark Shults of the University of Wisconsin Medical Center and the company Markwell Medical (Racine, WI). The open-chain aldehyde form of glucose reacts nonenyzmatically with proteins throughout the body. After years of exposure to such glycosylated proteins, many organs, including the eyes, kidneys, and heart, are severely damaged. Although insulin can be given to lower gluose levels, it must be given cautiously to avoid driving glucose too low, which results in serious insulin reactions. One proposed solution to this dilemma involves an implantable glucose sensor that could provide a "rich stream" of glucose data to the patient so that insulin can be used optimally. That goal is moving closer to reality. Shults and his co-workers have taken their

amperometric glucose sensors based on glucose oxidase chemistry, implanted them in dogs, and obtained clinically relevant data for as much asfourand a half months. They have received clearance from the U.S. Food and Drug Administration to begin limited human clinical trials with up to five individualss One of the most difficult aspects of designing an implantable glucose sensor is in tricking the body to use its defense mechanisms in the sensor's favor. Any time an object is introduced into the body, the body produces a "foreign body capsule", or FBC, that is intended to isolate the intrusive object. The FBC needs its own blood supply as it develops, but, unless something is done to sustain the process, angiogenesis (the creation of new blood vessels) stops. The FBC then loses its vascularization, becoming a tough,fibrousmembrane with such poor blood circulation that the loses its analyte. The researchers have developed an outer layer for the sensor membrane from a pro-

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Rapid, simultaneous detection of triazine herbicides Atrazine is one of the most widely used herbicides in the world. Methods for detecting it in water and soil are challenging because of its many degradation products. In addition, related triazine herbicides, such as simazine and cyanazine, are often found in the sample matrix. David S. Hage and co-workers at the University of Nebraska have developed a new method based on high-performance affinity chromatography for the simultaneous detection of atrazine and its related compounds. The method relies on an immunoaffinity column, which contains a covalently attached monoclonal antibody (mAb) that is specific for triazine compounds. The triazine herbicides are extracted from water samples upon passing through the immunoaffinity column. A set of standard reversed-phase (RP) HPLC columns is then used to reconcentrate and separate the extracted solutes. According to Hage, the method requires much smaller sample volumes than traditional GC methods and it

prietary material, the texture of which seems to promote angiogenesis. In addition, the sensor membrane must have a stable layer that can protect the underlying layers from macrophages mat attempt to degrade the sensor. This bioprotective layer can be constructed of polymers such as PTFE and polypropylene. When the sensor is operating in vitro, the 90 % response time to an increase in glucose levels is 3-5 min. In vivo ii is snly slightly slower, indicating a good blood supply to the sensor. The sensor responds over the clinical range of interest, 50-500 mg glucose/100 mL ((.8-28 mM). The fully implanted sensor transmits data using radiotelemetry. Interestingly, most sensor failures have little to do with the reaction chemistry. The prototype sensors are not in hermetically sealed packages, which limits long-term in vivo operation of electronics. This problem could be overcome by using the same techniques as in pacemaker construction.

ANDI moving ahead offers a lower detection limit of 0.1 ppb for a 250-uL sample injection. This limit is well below the EPA maximum allowance of 3 ppb in drinking water. Sample throughput can be increased by running samples simultaneously, says Hage. Because the system contains both an immunoaffinity column and standard RP columns, you can have multiple samples, one on each column, at the same time, he explains. The direct analysis of samples can be completed in as little as 12 min for ramples with hpp levels of triazine compounds and in 30 min for those with pptr levels, he says. .n addition, no sample pretreatment, other than simplefiltration,is required. The method has been used for monitoring triazine herbicide contamination in surface and river waters. In addition, it has been used to study the degradation rates of atrazine in groundwater and for evaluating new purification strategies in water treatment plants. With a different mAb, the method can also be used for the measurement of other contaminants in the environment. Hage says that they are currently developing a similar method for the detection of alachlor, another widely used herbicide.

In an ongoing effort to develop data standards for the instrumentation industry, a subcommittee of the American Society for Testing and Materials (ASTM) is closing in on guidelines—dubbed the Analytical Data Interchange Protocols (ANDI)—for mass spectrometry and chromatography. At a May 4 meeting in Attanta, the committee finalized the eraft for rhromatography. Those standards should be available on the ASTM web site (http://www.astm.org) soon, says Lynn Matthews, president of Thru-put Systems, Inc. (Orlando, FL) and chair of the subcommittee. The standards are designed to allow manipulation and archiving of data long past the life span of the instrument that collected it. The plan calls for specifications to handle raw data, results, the full dataprocessing method, the full chemical method, and good laboratory practice (GLP) information. Only specifications for raw data and results have been completely defined in the current round of protocols, says Mike McConnell, director of engineering at PE Nelson and a. technical cochair of an early ANDI committee on chromatography.

Analytical Chemistry News & Features, July 1, 1998 4 4 7 A

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The chromatography standard was inherited from the Analytical Instrument Association (now the Analytical and Life Science Systems Association, ALSSA) in 1997 and required only a cosmetic overhaul to bring it in line with ASTM's format. Its final approval came as no surprise. Meanwhile, the mass spectrometry standard will require some massaging. Testers have discovered some inconsistencies between it and the chromatography standard, including differingfieldnames. Others reported difficulties in compiling the software required to read and report the data. As it currently stands, the standard handles only simple MS data—MS/MS instruments will have to wait for modifications in a future version, says Mark Canales, director of product development for Finnigan Corporation, who headed up the ASTM subcommittee that produced the first round of the MS standards. Like the chromatography standard, the MS standard was inherited from ALSSA. Despite the criticisms, the content really hasn't changed much, Canales maintains. "It's really an evolution of the standard rather than a replacement." Round-robin testing will continue throughout the summer, says Matthews, with instrument manufacturers receiving chromatograms and MS readouts to read and store using the chromatography and MS standards. The results won't affect the current versions, but will be used in future revisions. She expects the MS standard to be approved late this year or early in 1999. In the meantime, ASTM is frustrated by a lack of participating customers. Having been inherited from ALSSA the committees still show a heavy bias of instrument manufacturers, though ASTM would prefer a 50:50 mix. "In the past ANDI was a fairly vendor-centric initiative—customers didn't know about it. We need to get input from customers to make the standards serve the marketplace," says Matthews. McConnell concurs: "There's certainly a range of opinion of why the standards are necessary, and whether the work has gone far enough to make it useful," he says. Matthews suggests that anyone interested in participating contact ASTM. Jim Kling

Genomics company In early May, the Perkin-Elmer Corporation and J. Craig Venter, president and director of the Institute for Genomic Re448 A

search (TIGR), announced that they had signed letters of intent relating to the formation of a new genomics company. The new company will take technology from PE's Applied Biosystems Division and apply it to sequencing strategies developed at TIGR, a nonprofit research institute that has fully sequenced seven organ isms since its founding in 1992. According to a press release issued jointly, a large part of the new company's mission will be "to substantially complete the sequencing of the human genome in three years". Venter will serve as the new company's president; Tony L White, Perkin-Elmer's chairman, president, and chief executive officer, will serve as chairman; and Peter Barrett, Perkin-Elmer's vice-president of corporate planning and business develop-

ment, will serve as an executive vice president. Perkin Elmer will retain approximately 80% ownership. The company wiil be located in Rockville, MD.

HP and Caliper sign deal The lab on a chip is one large step closer to a commercial reality. In May, the HewlettPackard Company and Caliper Technologies signed an agreement to develop the first generation of analytical instrumentation based on Caliper's technology. The companies plan to invest $20 million in the next year to develop the miniaturized instruments and an additional $80 million over the next four years to further develop and to commercialize the technology.

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Armstrong named separations editor

from developing countries, and sixmonth scholarships are available to candidates from Eastern Europe and newly Daniel Armemerging states. The scholarships will strong, University of Missouri- fund work at the Swiss Federal Institute of Technology (ETH), EMPA (EidgenosRolla, is the new Analytical Chem- sische Material-Prufanstalt). EAWAG (Swiss Federal Institute of Environmental istry Associate Editor for separa- Science and Technology), or the Paul Scherrer Institut. Applications should tions. He reinclude the student's topic of interest, full places Jim Jorgenson of the University of North Carolina-Chapel Hill, who has CV and three letters of recommendation and should be sent to World Laboratory served since 1992. Armstrong received his B.S. degree from Washington & Lee Research Centre c/o Renato Zenobi Swiss Federal Institute of Technology, University and his M.S. and Ph.D. deCHN C59 ETH Zentrum CH-8092 Zurgrees from Texas A&M University. ich Switzerland The deadline is Aug 31 Armstrong's research focuses on enantioselective molecular interactions; chiral separations; chromatographic theory polymer and protein analyses; Gold Medal Award and the use of antibiotics micelles and Alan G. Marshall, cyclodextrins in chemical analysis' Torprofessor of genson will remain the editor for anv chemistry at Flormanuscripts that began the review Droida State Univercess under his direction sity, will be presented with the New York Section of the Society Simon scholarship for Applied Spectroscopy's Gold Medal The ICSC-World Laboratory is announcing the 1998 scholarships in honor of the Award. He is being recognized for his contributions to spectroscopy, particulate Wilhelm Simon for students doing larly Fourier transform ion cyclotron respostdoctoral research in environmental and analytical chemistry. One- year schol- onance MS, a technique that he coinvented with Melvin Comisarow. arships are being offered to candidates

Analytical Chemistry News & Features, July 1, 1998