US6630507(Cannabinoids as antioxidants and neuroprotectants)
"EXAMPLE 1 Preparation of Cannabinoids and Neuronal Cultures
Cannabidiol, THC and reactants other than those specifically listed below were purchased from Sigma Chemical, Co. (St. Louis, Mo.). Cyclothiazide, glutamatergic ligands and MK-801 were obtained from Tocris Cookson (UK). Dihydrorhodamine was supplied by Molecular Probes (Eugene, Oreg.). T-butyl hydroperoxide, tetraethylammonium chloride, ferric citrate and sodium dithionite were all purchased from Aldrich (WI). All culture media were Gibco/BRL (MD) products."
US7295492 (Method and apparatus for correlation sonar)
"FIRST COMPARATIVE EXAMPLE
Prior-art method 200 for a velocity-measuring correlation SONAR is applied to receiver array 104. Operations 202 through 214 are performed to determine that the receiver pair (1, 14) has the best correlation. Velocity vector 420 for best-correlated primary receiver pair (1,14) is depicted in FIG. 4. A velocity estimate is developed based on pair (1,14), as per operations 216 and 218.
EXAMPLE APPLYING THE ILLUSTRATIVE METHOD TO THE FIRST COMPARATIVE EXAMPLE
In this Example, the inventive method is applied to the scenario of Comparative Example 1. Instead of developing only a single velocity solution based on the best-correlated primary receiver pair (1, 14) and other primary receiver pairs, a second solution is developed based on a set of redundant receiver pairs that includes a redundant pair that has the same velocity vector as the best-correlated primary receiver pair as well as additional redundant receiver pairs that have the same velocity vector as other primary receiver pairs. Receiver pair (5, 8) is a redundant receiver pair that has the same velocity vector as the best-correlated primary receiver pair. FIG. 5 depicts velocity vector 420 for best-correlated primary receiver pair (1, 14) and velocity vector 520 for corresponding redundant receiver pair (5, 8). Other redundant receiver pairs that correspond to the best-correlated primary receiver pair (1,14) and that could serve as the basis for additional velocity estimates include redundant pairs (16, 13) and (6, 9)."
US7251609 (Method for conducting clinical trials over the internet)
"EXAMPLE I
Osteoarthritis is a Public Health Problem
Osteoarthritis is a common age-related disorder, with radiographic changes present in the knees of over 10% of the population aged over 45 years, and which causes a substantial burden of disability and economic cost in the elderly. Its prevalence in the US is believed to exceed 60 million people, and the incidence of symptomatic knee and hip OA has been estimated at 200/100,000 person years. It is responsible for some 68 million work loss days per year, and for 70% of all hip replacements at a cost of $3 billion, in the US annually."
US6912222 (Private network access point router for interconnecting among internet route providers)
"EXAMPLE 2
Configuration for a Multi-PNAP Customer
In the example below assume the customer is connected to two PNAPs, A and B. A is the primary, with connections to NSP C, NSP D, while B is the secondary, with connections to NSP C, NSP D, and NSP E."
US7855647 (Flame resistant RFID tag and method of making the same)
"Comparative Example 1
A dry polyester (PET) inlay with squiggle antenna pattern (having the trade designation “SQUIGGLE”, available from Alien Technologies, Morgan Hill, Calif., part #1850032-001 supplied in roll form), was tested with no pressure sensitive adhesive layer. This commercial “SQUIGGLE” inlay as supplied includes a thin epoxy adhesive bonding the copper to the polyester. This inlay part number also includes an IC chip. The dimensions of the specimen tested was greater than 2 inches (5 cm)×12 inches (30 cm), cut from a roll of inlays 6 inches (15 cm) wide. The inlay was tested in both antenna orientations in accordance with the Burn Test.
Comparative Example 2
RFID “squiggle” tags were cut from the inlay roll from Comparative Example 1. They were cut in such a way to minimize the amount of PET in the sample. These trimmed inlays was attached to a 0.002 inch (50 micrometers) thick sheet of polyimide film 3 inches (8 cm) by 12 inches (30 cm) (having the trade designation “KAPTON H”, available from E.I. du Pont de Nemours and Co., Wilmington, Del.) using a flame resistant acrylic adhesive transfer tape marketed under the trade designation “9372 DK” by 3M Company, St. Paul, Minn.). The antennas were placed such that they were spaced between each other by 0.25 inch (6 mm). A second layer of 3M Company 9372 DK adhesive transfer tape was then applied over the first adhesive layer to encapsulate the RFID “squiggle” tags. Two Burn Tests were conducted, one with the major axis of the antenna oriented vertical and the other with the major axis of the antenna oriented horizontally
Example 1
An 0.002 inch (50-micrometer) thick sheet of polyimide film (having the trade designation “KAPTON H”, available from DuPont, Wilmington, Del.), was etched to form single dipole copper antennas each occupying an area 3 inches (8 cm) long and 0.75 inch (19 mm) wide, spaced 2 inches (5 cm) apart. A Phillips SL3ICS3001FTT UCODE EPC G2 RFID chip (available from Koninklijke Philips Electronics N.V., Groenewoudseweg 1, 5621 BA, Eindhoven, Netherlands) was attached to the substrate. The polyimide film was cut into strips at least 3 inches (8 cm) wide and 12 inches (30 cm) long. Specimens were prepared with the primary axes of the antenna oriented vertically and horizontally in accordance with the Burn Test. Each sample was laminated with “9372 DK” adhesive transfer tap on the side with the antenna and integrated circuit. The samples were then tested in accordance with the Burn Test."
