ライフサイエンスコーパス: specialized equipment

1 is easy to construct (2.5 h to build without specialized equipment).

2 many resources (e.g., cloud infrastructure, specialized equipment).

3 ric configurations, and without the need for specialized equipment.

4 hours, without the need for precipitants or specialized equipment.

5 ids, thus avoiding pressurized cylinders and specialized equipment.

6 ocol is simple, inexpensive, and requires no specialized equipment.

7 ndard cystoscopy videos without the need for specialized equipment.

8 labor-intensive procedures, and the need for specialized equipment.

9 antified as it requires expertise, time, and specialized equipment.

10 tive bacteria in a single experiment without specialized equipment.

11 catalyst concentrations without the need for specialized equipment.

12 pyridopyrazine-1,6-diones without the use of specialized equipment.

13 , ease of use, low cost, and little need for specialized equipment.

14 re comparable to commercial ELISA kits using specialized equipment.

15 However, they are time consuming and require specialized equipment.

16 asured, as it requires trained personnel and specialized equipment.

17 at non-physiological frequencies or involve specialized equipment.

18 n be achieved very inexpensively and without specialized equipment.

19 uires the use of lithographic techniques and specialized equipment.

20 re easy to implement in laboratories without specialized equipment.

21 -coated magnetic beads, without the need for specialized equipment.

22 uantities of AAV vector without the need for specialized equipment.

23 meras ranging from a basic camcorder to more specialized equipment.

24 siologic ionic strength without the need for specialized equipment.

25 cterial two-hybrid system and do not require specialized equipment.

26 vices in rigid plastics without the need for specialized equipment.

27 erent membrane matrixes and does not require specialized equipment.

28 soft lithography that minimizes the need for specialized equipment.

29 high-quality materials without the need for specialized equipment.

30 ature without the need for rotators or other specialized equipment.

31 luidic connections, alleviating the need for specialized equipment.

32 used for the assay, and it does not require specialized equipment.

33 stallation, maintenance and repair of large, specialized equipment.

34 lenge due to the dependence on expensive and specialized equipment.

35 etting as they require trained personnel and specialized equipment.

36 y overlooked because they require the use of specialized equipment.

37 perse droplets that are prepared without any specialized equipment.

38 l research community, as they require highly specialized equipment.

39 n requires neither complex manufacturing nor specialized equipment.

40 pically requires Hall effect measurements or specialized equipment.

41 asic laboratory setting without the need for specialized equipment.

42 settings, such as high cost and the need of specialized equipment.

43 ers have intensive care unit-level staffing, specialized equipment, a 24/7 schedule, and experience i

44 This method is easy and does not require specialized equipment, although it is not as efficient a

45 from DBSs involve several steps that require specialized equipment and can be lengthy.

46 The flow cell requires no specialized equipment and can be seamlessly integrated w

47 This protocol requires no specialized equipment and can easily be implemented by a

48 trisomic DNA samples are expensive, require specialized equipment and complicated analyses.

49 aper-based fluidic devices without requiring specialized equipment and could enable new capabilities

50 in centralized laboratories, and it requires specialized equipment and dedicated personnel to perform

51 ntilation; however, these techniques require specialized equipment and exogenous contrast, limiting c

52 ning low-input DNA material via LCM requires specialized equipment and expertise.

53 ions is costly and time-consuming, requiring specialized equipment and expertise.

54 niques typically require access to expensive specialized equipment and extensive training, limiting t

55 nd fluorescence microscopy and utilizes less specialized equipment and facilities compared with other

56 orms pose challenges, including the need for specialized equipment and fixed sample volumes.

57 in LLINs is cumbersome, costly, and requires specialized equipment and hazardous solvents.

58 alytical method requires less time, needs no specialized equipment and is capable of much higher thro

59 is stable for over 2 weeks, does not require specialized equipment and is compatible with time-lapse

60 ediction models because measurements require specialized equipment and may be expensive.

61 eactivity of the nanoparticle and/or require specialized equipment and other fluorophore-containing r

62 However, many of these methods require specialized equipment and personnel to complete them.

63 ill patients with hyperbaric oxygen requires specialized equipment and personnel with intensive care

64 boratories which require specimen transport, specialized equipment and personnel, and result in incre

65 However, the need for specialized equipment and refrigeration for production a

66 n nucleic acid amplification, which requires specialized equipment and skilled operators, limiting ac

67 ost, complexity and reliance on electricity, specialized equipment and supplies associated with conve

68 r, current methods of sEV separation require specialized equipment and time-consuming protocols and h

69 their application is limited by the lack of specialized equipment and trained personnel in laborator

70 ectromyography (sEMG), however sEMG requires specialized equipment and training.

71 that demands complex analytical techniques, specialized equipment, and expert personnel.

72 reaction times, low cost, no requirement for specialized equipment, and highly clear modification eff

73 pproach requires no cleanroom fabrication or specialized equipment, and produces individually-address

74 behaviors can be assessed using very little specialized equipment, and results can be obtained from

75 Both of these techniques require specialized equipment, and the measurements can be diffi

76 y (easily observable metrics that require no specialized equipment) are used to quantify individual d

77 The device can be fully assembled without specialized equipment beyond a 3D printer and a laser cu

78 In vivo barcoding does not require any specialized equipment beyond a low-overhead Oxford Nanop

79 that may alter active-site distributions or specialized equipment beyond reaction vessels and standa

80 The requirement for specialized equipment, complicated time-consuming method

81 e and requires skilled caregivers and use of specialized equipment (e.g., extracorporeal membrane oxy

82 solvents, which obviates the requirement for specialized equipment (e.g., glovebox).

83 ulations require fluorescent dyes and highly specialized equipment, e.g., flow cytometry, thus rapid

84 Hybrid channels were fabricated with no specialized equipment except a commercial 3D printer.

85 se devices in PDMS is straightforward and no specialized equipment, except for a standard microscope

86 tor photobleaching, protein purification, or specialized equipment for determining fluorescence spect

87 r, radial access can present challenges, and specialized equipment for peripheral interventions throu

88 veillance of SARS-CoV-2 without the need for specialized equipment, highly trained personnel, and lab

89 This strategy allows gaining selectivity, no specialized equipment is required and, ideally, recyclab

90 This requires no specialized equipment, is relatively inexpensive and is

91 The method is simple and fast, requires no specialized equipment, labeled substrate, or other expen

92 However, due to the need for specialized equipment, laboratories, and personnel, it i

93 tform selection, procurement and shipment of specialized equipment, laboratory preparation, staff tra

94 Our method, because it does not require specialized equipment, laser sources, or dedicated fiber

95 xist and current methods require complex and specialized equipment, making the monitoring of PFAS in

96 The solution-based assay does not require specialized equipment or access to a laboratory, and is

97 ing, and improves culture uniformity without specialized equipment or additional expertise.

98 No specialized equipment or ancillary supplies are required

99 microfluidic devices is costly and requires specialized equipment or cleanroom facilities.

100 ess takes less than 3 h and does not require specialized equipment or enzymatic processes.

101 HT-PAMDA does not require specialized equipment or expertise and is cost effective

102 g protein dynamics either necessitate highly specialized equipment or limit themselves to basic measu

103 ercially available ligands, operates without specialized equipment or pressurization, and tolerates a

104 t, like the original ExM method, requires no specialized equipment or procedures.

105 o kidney injury that can be deployed without specialized equipment or programming expertise.

106 tion with optogenetics has thus far required specialized equipment or scanning and has not yet been w

107 sed by any laboratory set-up without needing specialized equipment or software and is available for f

108 nal techniques are either laborious, require specialized equipment, or are not quantitative.

109 CRISPRkit eliminates the need for specialized equipment, prioritizes biosafety, and utiliz

110 n at point-of-care since they do not require specialized equipment, require limited expertise to perf

111 ral resources, energy, chemicals, and highly specialized equipment seldom accurately assessed from an

112 , it is rarely used in clinics due to costs, specialized equipment, space needs, and the requirements

113 , and those few that do provide them rely on specialized equipment that may not be readily available.

114 Without using any specialized equipment, the limits of detection of 1.6 ng

115 ilable ImageJ plugin that requires no highly specialized equipment to utilize, AxonJ represents a pow

116 ong duration, need for large sample volumes, specialized equipment, trained personnel, and high costs

117 ts, clothing, and other equipment as well as specialized equipment treated with BDE-209, including tu

118 nd clearing methods without the need for any specialized equipment, we anticipate the wide applicabil

119 ured illumination microscopy (SSIM)] require specialized equipment, whereas single-molecule-based app

120 o-CAP), which eliminates the requirement for specialized equipment while dramatically improving and s