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1 ion in bridging basic circadian research and clinical medicine.
2 eshaped the development of tumor vaccines in clinical medicine.
3 tifying and applying genetic risk factors to clinical medicine.
4 ular biology are having a profound impact in clinical medicine.
5 ink this sequence to problems in biology and clinical medicine.
6 e poorly understood electrolyte disorders in clinical medicine.
7 omparable with that of most measures used in clinical medicine.
8 has yet to have an impact on the practice of clinical medicine.
9 s of a monumental advance in the practice of clinical medicine.
10 ) related organ system, and 4) importance in clinical medicine.
11 e applications of the method in research and clinical medicine.
12 ng that the sensors might meet many needs in clinical medicine.
13 arch and have the potential to revolutionize clinical medicine.
14 t the life sciences, clinical chemistry, and clinical medicine.
15 lds of investigation throughout research and clinical medicine.
16 rk will have relevance to a broader field of clinical medicine.
17 cations of genome sequencing in research and clinical medicine.
18 powerful technique in biological science and clinical medicine.
19 lysis to become a mainstream tool in routine clinical medicine.
20 nsidered when determining the role of WGS in clinical medicine.
21  the genetic discoveries and their impact on clinical medicine.
22 n the life sciences, clinical chemistry, and clinical medicine.
23 ng the actions of IL-2 are being utilized in clinical medicine.
24 d bacteria, and their use has revolutionized clinical medicine.
25 hallenges to the pharmaceutical industry and clinical medicine.
26 ted the convergence of discovery science and clinical medicine.
27  the goal of translating these findings into clinical medicine.
28 d to controversies about their usefulness in clinical medicine.
29 ms demonstrate possibilities in robotics and clinical medicine.
30 ng it difficult to link molecular biology to clinical medicine.
31 lecular imaging and the potential impact for clinical medicine.
32 d if used therapeutically will revolutionize clinical medicine.
33  optical molecular imaging will translate to clinical medicine.
34 and the potential they may carry in changing clinical medicine.
35 atherothrombosis, remains an elusive goal in clinical medicine.
36 ogy is increasingly costly in most fields of clinical medicine.
37 the potential for applying these findings in clinical medicine.
38 ac auscultation remains an important part of clinical medicine.
39  have widespread applications in biology and clinical medicine.
40 investigate whether cystatin C has a role in clinical medicine.
41  the way we currently employ immunoassays in clinical medicine.
42  for biodefense and cellular diagnostics for clinical medicine.
43  and cancer in both experimental animals and clinical medicine.
44  integration of gene expression profiling in clinical medicine.
45 the effective use of genetic test results in clinical medicine.
46 one of the most difficult tumors to treat in clinical medicine.
47 me an essential component of the practice of clinical medicine.
48 vely apply the science of human nutrition to clinical medicine.
49  growth factors have found widespread use in clinical medicine, a 'lymphoid growth factor' has not ye
50  individuals becomes a fundamental aspect of clinical medicine, a thorough consideration of the genet
51 renal nerves has recently been introduced to clinical medicine after the demonstration of significant
52 nd stimulating the brain are used throughout clinical medicine and basic neuroscience research, yet a
53 d important information of relevance to both clinical medicine and basic research in skin physiology.
54 ion DNA sequencing promises to revolutionize clinical medicine and basic research.
55 formation also has important applications in clinical medicine and drug discovery by using a Mendelia
56 y and has wide-ranging implications for both clinical medicine and experimental biology.
57  we highlight studies at the intersection of clinical medicine and experimental genetics that pinpoin
58   Next generation sequencing is transforming clinical medicine and genome research, providing a power
59  Routine blood tests are an integral part of clinical medicine and in interpreting blood test results
60  sequencing (WGS) is increasingly applied in clinical medicine and is expected to uncover clinically
61 ranslational science applications related to clinical medicine and pharmaceutical drug development am
62 imaging to a wide variety of applications in clinical medicine and preclinical research.
63 ction and intervention are key principles in clinical medicine and psychiatry.
64                                              Clinical medicine and public health would benefit from s
65 th, identifies opportunities to further link clinical medicine and public health, and describes futur
66 s and genomic technologies become routine in clinical medicine and public health.
67 edical informatics that will further advance clinical medicine and public health.
68  test technologies and their applications in clinical medicine and research.
69     Rapamycin is having a profound impact on clinical medicine and was approved as an immunosuppressa
70 quencing technologies has begun to transform clinical medicine, and cardiovascular disease is no exce
71 ment of cancer is a significant challenge in clinical medicine, and its research is a top priority in
72 lishing, industry, advocacy, science policy, clinical medicine, and population health.
73 e close bridge between molecular biology and clinical medicine, and will emphasize that consideration
74 Foundation; 48 journals in basic science and clinical medicine; and 17 federal agencies in order to a
75                        Their applications in clinical medicine are evolving rapidly but are still not
76 ggested that steroid doses currently used in clinical medicine are suboptimal in repressing NFkappaB-
77 dictions inherent in the Flexnerian ideal of clinical medicine as a research-oriented university disc
78  whose sensitive detection is of interest in clinical medicine as well as in biological warfare or te
79 furosemide and bumetanide, molecules used in clinical medicine because they inhibit the loop of Henle
80 llenges must be met before widespread use in clinical medicine can be undertaken.
81        Articles published in journals in the clinical medicine category versus other fields were almo
82 t places the hematologist at the junction of clinical medicine, cellular biology, and molecular genet
83       Serum ferritin has been used widely in clinical medicine chiefly as an indicator of iron stores
84 velopment process, including the FDA and the clinical medicine community.
85 kships or physical diagnosis/introduction to clinical medicine courses.
86 to find increasing applications in research, clinical medicine, diagnostics and manufacturing.
87 human spaceflight, e.g., a Mars mission, and clinical medicine, e.g., improved understanding of the e
88  It has already made a significant impact on clinical medicine, especially in oncology.
89 e, a nonfederal panel with expertise in CEA, clinical medicine, ethics, and health outcomes measureme
90 oncology) has emerged as a new discipline in clinical medicine, given recent advances in cancer thera
91 me to play an increasingly prominent role in clinical medicine, heme oxygenase-1 is one of several mo
92      In spite of a liking for and ability in clinical medicine, I entered the Public Health Service a
93              EBM's enduring contributions to clinical medicine include placing the practice of medici
94 tokines have found important applications in clinical medicine, including the treatment of certain ma
95             Integration of metagenomics into clinical medicine is a challenge, and the authors highli
96                     Much of epidemiology and clinical medicine is focused on estimating the effects o
97      An underpinning of basic physiology and clinical medicine is that specific protein complements u
98                          Their importance in clinical medicine is underscored by the observation that
99                          A major question in clinical medicine is whether infarction size and border
100 s, although necessary for the advancement of clinical medicine, is not sufficient.
101 traditional translational research pathways (clinical medicine-molecular biology) as well as nontradi
102 ar biology) as well as nontraditional lines (clinical medicine-optical physics/engineering and molecu
103  therapeutic success remain urgent issues in clinical medicine, particularly given the increasing can
104 enetic causes of heart disease is important, clinical medicine, public health policies, and research
105 their effect on health care is important for clinical medicine, public-health programmes, and health-
106                    Many procedures in modern clinical medicine rely on the use of electronic implants
107  Neuroscience also has led to innovations in clinical medicine that have not only therapeutic but als
108          Whereas MSCs have been exploited in clinical medicine, the identification of MSC-specific ma
109 ence grows in the integration of genomic and clinical medicine, the outcome for children with cancer
110  infection are well-documented conditions in clinical medicine, there is only a single case report of
111 -resolution imaging of pediatric patients in clinical medicine through to advancing 3D electron tomog
112 stions by extending approaches developed for clinical medicine to handle the breadth of data relevant
113 Pretest risk estimation is routinely used in clinical medicine to inform further diagnostic testing i
114 be the major immunomodulatory agents used in clinical medicine today.
115                                           In clinical medicine, we are forced to make decisions about
116  As these emerging therapies find a place in clinical medicine, we can anticipate preventing a much h
117 teroids, pharmacologic agents widely used in clinical medicine, we constructed replication deficient
118 cid metabolism may lead to new strategies in clinical medicine whereby both amino acid auxotrophy and
119 ely several fold higher than for the rest of clinical medicine, who has responsibility for being cert
120  Renal cell carcinoma remains a challenge to clinical medicine, with curative therapy experienced by
121 hown the potential to change many aspects of clinical medicine within the next decade.
122 r that used by the Cochrane Collaboration in clinical medicine, would facilitate the systematic prepa

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