ライフサイエンスコーパス: shockwave

1 ations in the rocks that were exposed to the shockwave.

2 ck dust shell before it was disrupted by the shockwave.

3 kwave absorption property upon laser-induced shockwave.

4 r induced by acoustic cavitation process and shockwaves.

5 in NILs plays an important role in absorbing shockwaves.

6 Beef briskets were subjected to shockwave (11 kJ/pulse) and were sous vide-cooked at 60

7 Beef briskets were subjected to shockwave (11 kJ/pulse) and were sous vide-cooked at 60

8 le that is consistent with a negative energy shockwave(14), a Shapiro time delay(15), causal time-ord

9 d shock-induced ordering contribute to NIL's shockwave absorption performance.

10 ic liquids (NILs) that possess an intriguing shockwave absorption property upon laser-induced shockwa

11 According to the SEM and CFU analysis, the shockwave and antibiotic-combined treatment significantl

12 rce designed to bring order to this sequence shockwave and improve usability of viral sequence data.

13 ntle, short, external artificial vibrational shockwave, and recording their response.

14 noindentation, drive the dislocations with a shockwave, and use electron microscopy to determine how

15 important knowledge in the study of how the shockwave associated with a blast explosion impacts diff

16 nificant subsurface energy absorption due to shockwave attenuation, a mechanism traditionally conside

17 Seven Shockwave balloons ruptured during treatment without any

18 were treated with six sessions of low-energy shockwave (biweekly for 3 consecutive weeks) or left unt

19 ce points to their acceleration by supernova shockwaves, but we know little of their escape from the

20 ght calcified lesions were treated using the Shockwave C(2) balloon.

21 g shockwave lithotripsy, such as varying the shockwave delivery rate and method.

22 High pressure (e.g., shockwave-driven) synthesis holds promise as an effectiv

23 The shockwaves emerge spontaneously and move faster than the

24 high-frequency modes can carry up to 80% of shockwave energy, exhibit 100x smaller damping ratio, an

25 h movements, across scales, follows a single shockwave equation that accounts for heterogeneity in on

26 Among different exposure levels, 200 shockwaves exposed Fe(3)O(4) modified glassy carbon elec

27 y excluding the possibility of ionization by shockwave formation.

28 The effect of shockwave from nuclear explosion is an area that can be

29 reakout emission is light that arises when a shockwave, generated by the core-collapse explosion of a

30 virus inactivation based on plasmon enhanced shockwave generation is proposed.

31 Ultrafast shockwaves (>1200 C) in an inert atmosphere induced surf

32 Pressure-modulated shockwave histotripsy (PSH) is a new type of histotripsy

33 ct initiation, reminiscent of defect-induced shockwaves in nonequilibrium physics transport models.

34 Understanding shockwave-induced physical and chemical changes of impac

35 ted the roles of cavitation bubble location, shockwave intensity and the size of a cavitation bubble

36 During the laser peening phase, a shockwave is used to compress the film.

37 Laser-induced shockwaves (LIS) and its associated shear stress can mec

38 8%-78.5%]) and in 105 patients who underwent shockwave lithotripsy (67.5% [95% CI, 61.0%-74.1%]), a d

39 Results of extracorporeal shockwave lithotripsy (ESWL) for lower calyceal stones a

40 197 kidneys or ureters with ureteroscopy and shockwave lithotripsy (n = 953 and n = 189 patients), re

41 For the last three decades, extracorporeal shockwave lithotripsy (SWL) has been the mainstay of man

42 of a successful outcome after extracorporeal shockwave lithotripsy (SWL) treatment for renal and uret

43 Extracorporeal shockwave lithotripsy (SWL) was initially the preferred

44 of treating urolithiasis with extracorporeal shockwave lithotripsy and endoscopic surgery continues t

45 g its use in combination with extracorporeal shockwave lithotripsy and percutaneous nephrolithotomy.

46 In this review, the cost-effectiveness of shockwave lithotripsy and that of endoscopic surgery in

47 Excellent results can be obtained by both shockwave lithotripsy and ureteroscopic methods, with re

48 For larger stones, extracorporeal shockwave lithotripsy and/or pancreatoscopy with intradu

49 hemselves, associated with refractoriness to shockwave lithotripsy are fairly well defined, refining

50 these traits and optimizing the efficacy of shockwave lithotripsy are still under investigation.

51 The current literature continues to support shockwave lithotripsy as both a safe and effective means

52 Extracorporeal shockwave lithotripsy combined with endoscopic therapy f

53 Shockwave lithotripsy continues to evolve with the adven

54 Widespread use of extracorporeal shockwave lithotripsy for calculi in congenitally abnorm

55 es recommend percutaneous nephrolithotomy or shockwave lithotripsy for children and adolescents with

56 different factors and predictors that affect shockwave lithotripsy for stone disease.

57 ter define patient selection and the role of shockwave lithotripsy in the treatment of urolithiasis.

58 Extracorporeal shockwave lithotripsy maintains a major role in treating

59 Extracorporeal shockwave lithotripsy success rates vary from 50 to 90%,

60 ost validated parameters that correlate with shockwave lithotripsy success.

61 and reporting improvements in extracorporeal shockwave lithotripsy technique and outcomes.

62 Shockwave lithotripsy was associated with better patient

63 nt developments in predicting the failure of shockwave lithotripsy when treating patients with urinar

64 lude conservative management, extracorporeal shockwave lithotripsy, percutaneous nephrolithotomy, ure

65 se the efficacy of the technology underlying shockwave lithotripsy, such as varying the shockwave del

66 Compared with shockwave lithotripsy, ureteroscopy resulted in greater

67 Multiple modalities including shockwave lithotripsy, ureteroscopy, percutaneous nephro

68 6 procedures for 5 patients (2.6%) receiving shockwave lithotripsy.

69 d peer reviewed literature on the subject of shockwave lithotripsy.

70 ed to genetic polymorphism and extracorporal shockwave lithotripsy.

71 ence in stone clearance with ureteroscopy vs shockwave lithotripsy.

72 uideline recommendations for ureteroscopy or shockwave lithotripsy.

73 temperature of MgSiO(3) at 500 GPa by direct shockwave loading of pre-synthesized dense MgSiO(3) (bri

74 available intravascular lithotripsy system (Shockwave Medical, Santa Clara, CA), the clinical data o

75 We report a shockwave method for altering the properties of the supe

76 The reported shockwave method is facile, ultrafast and universal (for

77 , Cerenkov showed how charged particles emit shockwaves of light when moving faster than the phase ve

78 This study focuses on the effects of shockwave on solid objects oriented in different formati

79 nt with PDE5 inhibitors and daily tadalafil, shockwaves, or a vacuum device was associated with addit

80 ry, and simulations, we demonstrate that the shockwaves originate from intermittent spontaneous vorte

81 Here, we report on the emergence of shockwave patterns composed of coherently moving particl

82 Shockwave processing alone decreased the enthalpy and th

83 We studied the effect of shockwave processing and subsequent sous vide cooking on

84 The results show that shockwave processing, with and without sous vide cooking

85 The shockwave produced alongside the plasma during a laser-i

86 nt findings from our laboratory suggest that shockwaves produced by a blast can generate micron-sized

87 sed laser effects on fictive temperature and shockwave promotion are discussed in detail for their ro

88 arge-scale molecular dynamics simulations of shockwave propagation and quasi-isentropic compression i

89 everal studies have also shown that a slower shockwave rate improves stone fragmentation for intraren

90 beta1-integrin) ex vivo A 3-week low-energy shockwave regimen attenuated renovascular hypertension,

91 This shockwave regimen did not cause detectable kidney injury

92 ons representative of the flow behind strong shockwaves, relevant to hypersonic flight, are analyzed.

93 ciated retinal lesions and can actually damp shockwaves significantly.

94 Interestingly, multiple pulses of shockwave stimulation caused a more sustained calcium in

95 rial is to investigate the safety of cardiac shockwave therapy (SWT) as a novel treatment option and

96 h prolonged (6 weeks) renal artery stenosis, shockwave therapy also decreased BP and improved GFR, mi

97 rallel-group, sham-controlled trial (cardiac shockwave therapy for ischemic heart failure, CAST-HF; N

98 management of the disease by extracorporeal shockwave therapy have been reported in many centres.

99 In conclusion, low-energy shockwave therapy improves stenotic kidney function, lik

100 strengthening exercises, but extracorporeal shockwave therapy may be used.

101 Low-energy shockwave therapy may serve as a novel noninvasive inter

102 Low-energy shockwave therapy stimulates angiogenesis, but the effec

103 We hypothesized that low-energy shockwave therapy would restore the microcirculation and

104 0.22-6.78) for the addition of low-intensity shockwave therapy, 8.40 (95% CI, 4.90-11.90) for the add

105 d foot orthotics, followed by extracorporeal shockwave therapy, corticosteroid injection, or platelet

106 Adding daily tadalafil, low-intensity shockwave therapy, vacuum erectile device, folic acid, m

107 y syndrome coronavirus 2 pandemic has caused shockwaves throughout the US healthcare system.

108 th their mass ratio supports spiral waves or shockwaves tidally induced by the companion star as the

109 Here we use laser-driven shockwaves to simultaneously compress and heat liquid wa

110 e report using controllable high-temperature shockwaves to synthesize and stabilize single atoms at v

111 B(12) (cobalamin) has been fabricated using shockwave treated Fe(3)O(4) nanoparticles as electrode m

112 lation and denaturation were observed in the shockwave-treated cooked meat compared to the cooked con

113 The shockwave-treated sample exhibits n-type semiconductor p

114 The biofilms were treated with shockwave treatment (120 pulses at 2 Hz), followed by ex

115 current study aims to assess the effects of shockwave treatment combined with antibiotic therapy on

116 In conclusion, the shockwave treatment combined with antibiotics could effe

117 ducting Bi2Sr2CuO6+delta (Bi2201) during the shockwave treatment.

118 difying the superconducting properties via a shockwave treatment.

119 igh-intensity lasers can be used to generate shockwaves, which have found applications in nuclear fus

120 ionless electrostatic shocks are one type of shockwave widely studied for applications involving ion