ライフサイエンスコーパス: exercise therapy

1 lectrical stimulation (NMES) as a home-based exercise therapy.

2 those with higher magnitudes of QA following exercise therapy.

3 ifficulty improving quadriceps strength with exercise therapy.

4 ict changes in quadriceps strength following exercise therapy.

5 lude cognitive behavioral therapy and graded exercise therapy.

6 nopathy compared with placebo injections and exercise therapy.

7 l to interpreting the findings of studies of exercise therapy.

8 ent, and cognition-targeted, time-contingent exercise therapy.

9 lly focused education and symptom-contingent exercise therapy.

10 pain neuroscience education (3 sessions) and exercise therapy (9 sessions in the CBTi-BEPM group, 15

11 intensive interdisciplinary rehabilitation, exercise therapy, acupuncture, massage therapy, spinal m

12 The effects of exercise therapy administered during, following, or duri

13 ter each treatment than sham-PENS, TENS, and exercise therapies (after-treatment mean +/- SD VAS for

14 operative management programme that included exercise therapy and at least one steroid injection.

15 In the behavioral category, graded exercise therapy and cognitive behavioral therapy showed

16 A combination of exercise therapy and corticosteroid injection should be

17 Exercise therapy and exercise-placebo sessions took plac

18 exercise therapy, monthly telephone contact, exercise therapy and telephone contact, or no interventi

19 of treatment such as counseling on diet and exercise therapy and the use of oral antidiabetic agents

20 apy, the need for a standardized approach to exercise therapy, and a potential biologic effect.

21 program that includes dietary intervention, exercise therapy, and behavior modification, in both the

22 studied treatment option, but psychotherapy, exercise therapy, and electroconvulsive therapy may also

23 s in the management of PAD (eg, medications, exercise therapy, and revascularization).

24 Subsequent to drug and/or exercise therapy, animals were chronically cannulated in

25 Exercise therapies are advocated in osteoarthritis (OA)

26 Corticosteroid injections and exercise therapy are commonly used to treat chronic midp

27 ngs in animal models of PD pinpoint targeted exercise therapy as a potential treatment to reduce neur

28 on optimizing the implementation of GDMT and exercise therapy, as well as improving the quality of li

29 y-General (primary outcome) favoring aerobic exercise therapy at 8 weeks, relative to usual care.

30 ard of care is multidisciplinary emphasizing exercise therapy, cognitive-behavioral treatment, and se

31 The group receiving exercise therapy combined with corticosteroid injections

32 ISA-A score compared with patients receiving exercise therapy combined with placebo injections at 6 m

33 Counseling therapies and graded exercise therapy compared with no treatment, relaxation,

34 nomic evaluation of structured education and exercise therapy compared with usual care, the intervent

35 In multiple small trials, walking exercise therapy did not consistently improve mitochondr

36 elines for clinical populations recommend an exercise therapy (ET) prescription of fixed intensity (m

37 KOA strategy may be efficient for delivering exercise therapies for knee osteoarthritis.

38 nd symptoms, and how these data compare with exercise therapy for other cardiovascular conditions.

39 ombined from 5 randomized clinical trials of exercise therapy for PAD using individual participant da

40 ture, back schools, psychological therapies, exercise therapy, functional restoration, interdisciplin

41 to specialist medical care (SMC), or graded exercise therapy (GET) added to SMC, are more effective

42 cognitive behaviour therapy (CBT) and graded exercise therapy (GET) can be effective treatments for c

43 condition, but also recommended that graded exercise therapy (GET) should not be used and cognitive-

44 gnitive behavioural therapy (CBT), or graded exercise therapy (GET) were superior to adaptive pacing

45 cognitive behaviour therapy (CBT), or graded exercise therapy (GET), to specialist medical care (SMC)

46 Exercise therapy had large, clinically meaningful, short

47 ), and contribute to the clinical benefit of exercise therapy in moderate osteoarthritis.

48 study, PENS was more effective than TENS or exercise therapy in providing short-term pain relief and

49 ce continues to evolve about the evidence of exercise therapy in symptomatic and asymptomatic PAD.

50 view summarizes the existing knowledge about exercise therapy in the management of juvenile idiopathi

51 Exercise therapy in this setting presents different moda

52 Structured education and exercise therapy intervention provided by physiotherapis

53 Graded exercise therapy is an effective and safe treatment for

54 Exercise therapy is associated with improvements in knee

55 gh there may be beneficial effects, targeted exercise therapy is not a standard component of therapy

56 Although exercise therapy is often prescribed to people with pain

57 Supervised exercise therapy is recommended as first-line treatment

58 Exercise therapy is the most studied and validated thera

59 ence that lifestyle modification, especially exercise therapy, may mitigate these adverse effects is

60 d > or = 45 years were randomized to receive exercise therapy, monthly telephone contact, exercise th

61 were randomly assigned to supervised aerobic exercise therapy (n = 34), exercise-placebo (body condit

62 se underwent repeat testing after supervised exercise therapy (n=14) or revascularization (n=14).

63 To examine the effects of aerobic exercise therapy on quality of life (QoL) and associated

64 After supervised exercise therapy or revascularization, improvements in m

65 nutes of education followed by 60 minutes of exercise therapy) or usual care (information booklet and

66 Implementation of an education and exercise therapy program resulted in a lifetime cost sav

67 health outcomes of a national education and exercise therapy program vs usual care in the Australian

68 Structured education and exercise therapy programs have been proposed to reduce r

69 Structured exercise therapy reduces symptoms and improves 6-minute

70 ies differs significantly, involving diverse exercise therapy regimens both before and after surgical

71 s included long-covid, post-covid, sequelae, exercise therapy, rehabilitation, physical activity, phy

72 mprovement between concurrent vs. sequential exercise therapy relative to usual care in women with pr

73 Significant differences that favored aerobic exercise therapy relative to usual care were recorded fo

74 Supervised exercise therapy (SET) improves walking ability, overall

75 Exercise therapy should remain a mainstay of ankylosing

76 arly and should initially emphasize diet and exercise therapy; staged introduction of oral hypoglycem

77 The treatment program included intensive exercise therapy, stress management, and consumption of

78 ntatolimod, counseling therapies, and graded exercise therapy suggest benefit for some patients meeti

79 and more amenable and responsive to diet and exercise therapy than are obese patients with establishe

80 owering and anti-hypertensive therapies, and exercise therapies that aim to improve function as well

81 group) or best medical therapy + structured exercise therapy (the nonrevascularization group).

82 rization + best medical therapy + structured exercise therapy (the revascularization group) or best m

83 for baseline quadriceps strength and type of exercise therapy, the level of QA did not predict quadri

84 ates the importance of continued emphasis on exercise therapy, the need for a standardized approach t

85 The most appropriate timing of exercise therapy to improve cardiorespiratory fitness (C

86 ance in patients with cancer and the role of exercise therapy to mitigate or prevent dysfunction.

87 might lead to more effective integration of exercise therapy to optimise the treatment and managemen

88 r=65 y) adults randomly assigned to diet and exercise therapy (treatment group; n = 17) or no therapy

89 It is therefore possible that passive exercise therapies typically applied below the level of

90 y and CRF benefit of ~32 weeks of continuous exercise therapy warrant further evaluation in larger tr

91 Exercise therapy was associated with higher costs and be

92 Exercise therapy was based on previous trials and consis

93 At a population level, education and exercise therapy was not cost-effective at the lifetime

94 Corticosteroid injections combined with exercise therapy were associated with better outcomes in

95 Participants allocated to receive exercise therapy were significantly more likely to incur

96 eutic modalities (sham-PENS, PENS, TENS, and exercise therapies) were each administered for a period