1 Microsurgical ablation of the cerberus-expressing endode
2 Microsurgical ablations, rotations, and translocations w
3 End-to-side (ETS)
microsurgical anastomosis is a powerful technique in mic
4 dels highlight the essential capabilities in
microsurgical and transplantation-related biomedical app
5 placing nicardipine release implants during
microsurgical aneurysm repair can provide safe and effec
6 ured anterior circulation aneurysm requiring
microsurgical aneurysm repair participated.
7 Here we address this issue using a
microsurgical approach allowing combined monitoring of a
8 handling resulting from the application of a
microsurgical approach hold great promise to further imp
9 to preliminarily evaluate the outcomes of a
microsurgical approach in the regenerative therapy of de
10 The use a
microsurgical approach was associated with very high abi
11 While early
microsurgical approaches demonstrated a startling array
12 Therefore,
microsurgical approaches do not permit an unequivocal an
13 the ventricular cavity of living embryos via
microsurgical approaches.
14 Macro- and
microsurgical as well as interventional radiological tec
15 ion therapy and ICI following craniotomy and
microsurgical brain metastasis resection.
16 (L-NMMA, 30 mg/kg, n = 7) before undergoing
microsurgical carotid endarterectomy.
17 Traditionally, they are treated by
microsurgical clipping, but with the development of new
18 only treated using endovascular treatment or
microsurgical clipping.
19 Using Hoxa2 as a guide for the
microsurgical construction of quail-chick chimaeras, we
20 r safety and its effectiveness in completing
microsurgical coronary anastomoses.
21 a q-25) and nontransgenic siblings underwent
microsurgical creation of transverse aortic coarctation
22 ve been isolated from their cell bodies by a
microsurgical cut.
23 Microsurgical deletion of the embryonic shield region at
24 Some donors livers underwent
microsurgical denervation before harvesting or rats were
25 such as vasectomy reversal, varicocelectomy,
microsurgical denervation of the spermatic cord for chro
26 e joints of Ddr2(+/-) mice were subjected to
microsurgical destabilization of the medial meniscus.
27 nomical, sustainable and realistic model for
microsurgical education and provide a step-by-step workf
28 perm extraction, as well as percutaneous and
microsurgical epididymal sperm aspiration.
29 A series of
microsurgical experiments showed that myocardial differe
30 , senior-level professors (157 [21.8%]), and
microsurgical fellows (118 [16.4%]).
31 fied for the nature of the procedure; a free
microsurgical flap containing lymph nodes for the purpos
32 mbolism (VTE) is a severe complication after
microsurgical free tissue transfer (FTT) to the head and
33 ous, real-time monitoring of perfusion after
microsurgical free tissue transfer or solid organ allotr
34 s suggest that preventing hypothermia during
microsurgical FTT to the head and neck may decrease the
35 itations of conventional endoscopic coronary
microsurgical instrumentation via computerized, digital
36 with the aid of an operating microscope and
microsurgical instruments.
37 with the aid of an operating microscope and
microsurgical instruments.
38 Using
microsurgical isolations and cell transplantation, we sh
39 Microsurgical isolations of various lineage blastomeres
40 f the retina, making it suitable for retinal
microsurgical maneuvers or any procedures in which easy
41 Finally, photographic series,
microsurgical manipulations, electron microscopy, and st
42 with DiI labeling of neural crest cells and
microsurgical manipulations.
43 In addition, using a
microsurgical model, we show how LN metastasis developme
44 Microsurgical nerve repair has demonstrated to provide i
45 are applicable to other species, we created
microsurgical openings in nematodes, ants, and the mouse
46 ectoderm on paraxis expression by performing
microsurgical operations on chick embryos.
47 rocedures would not only enable more precise
microsurgical operations, but also facilitate widespread
48 Remarkably,
microsurgical perturbation of the wild-type allantoic co
49 a combination of live imaging, modeling, and
microsurgical perturbations, we show that the axial and
50 rgely automated, and economical protocol for
microsurgical preparation of live animals for optical im
51 rospective autopod joint sites using a novel
microsurgical procedure and tested them in vitro.
52 This review covers robotic
microsurgical procedures and tools for infertility and c
53 Si-HD system has led to its integration into
microsurgical procedures for male infertility.
54 The use of robotic assistance during
microsurgical procedures has evolved from its early begi
55 The use of robotic assistance during
microsurgical procedures is currently being explored in
56 These delicate cranial
microsurgical procedures need to be performed on the sub
57 ling machine to perform a variety of cranial
microsurgical procedures on mice.
58 and applications of the robotic platform in
microsurgical procedures such as vasectomy reversal, var
59 and applications of the robotic platform in
microsurgical procedures such as vasectomy reversal, var
60 However,
microsurgical procedures such as VLNT has gained popular
61 l management, increases the success of these
microsurgical procedures.
62 OCT permit rapid feedback for assessment of
microsurgical procedures.
63 result in a steep learning curve to achieve
microsurgical proficiency.
64 omplete tibial nerve transection followed by
microsurgical reattachment and 1 year later motoneurons
65 tro fertilization, as well as refinements in
microsurgical reconstruction have led to improved outcom
66 Recent advances in
microsurgical reconstruction may allow selected patients
67 Microsurgical reconstruction of the vas has remained a c
68 ement with delayed free flap anastomosis for
microsurgical reconstructions of lower extremity soft-ti
69 (2) This fiber pattern is blocked by
microsurgical removal of PMCs but is restored if PMCs ar
70 We show, using
microsurgical removal of PVAT from the muscle microcircu
71 ant group was increased in comparison to the
microsurgical repair alone, and improved stepping was ob
72 t sciatic nerves were transected followed by
microsurgical repair and transplantation of OECs or inje
73 imens were obtained from patients undergoing
microsurgical repair of a damaged lingual nerve.
74 anent functional deficit even after advanced
microsurgical repair.
75 e the reasons of poor functional outcomes of
microsurgical repairs in humans, we developed a novel pr
76 ed 486 patients with brain AVMs treated with
microsurgical resection between January 2010 and Decembe
77 ntraoperative mapping techniques, aggressive
microsurgical resection can be safely pursued even when
78 radiosurgery is the principal alternative to
microsurgical resection for acoustic neuromas (vestibula
79 tumors, selective use of less-than-complete
microsurgical resection is establishing an increasing ro
80 Although
microsurgical resection must be balanced by the risk of
81 Complete
microsurgical resection of metastatic tumors in the prim
82 mor stiffness on clinical outcomes following
microsurgical resection of vestibular schwannomas (VS) a
83 ew of 242 consecutive patients who underwent
microsurgical resection of VS over a 7-year study period
84 relevant to facial nerve outcomes following
microsurgical resection of VS.
85 likelihood of facial nerve injury following
microsurgical resection of VS.
86 Sixteen of 21 patients underwent
microsurgical resection prior to IBT; in 5 patients, IBT
87 stibular schwannoma may include observation,
microsurgical resection, or radiation of a tumor near th
88 bolization is commonly used as an adjunct to
microsurgical resection, with the aim of reducing intrao
89 racterize patient outcomes in the setting of
microsurgical salvage for radiosurgical failure.
90 produce three-dimensional reconstructions of
microsurgical specimens.
91 or ovariohysterectomy in mice, including the
microsurgical steps required.
92 ng personalized surgical devices and a novel
microsurgical strategy at a specialized center for vascu
93 Microsurgical sutures were used for primary closure.
94 egimen and weekly performed two standardized
microsurgical tasks: circular cutting and simple interru
95 biliary reconstructions were performed using
microsurgical technique by a single microsurgeon.
96 Major advantages of the laser
microsurgical technique include the avoidance of enzymat
97 Using this laser
microsurgical technique, we have measured channel activi
98 , which requires a more invasive and precise
microsurgical technique.
99 toperative sperm counts compared to the pure
microsurgical technique.
100 toperative sperm counts compared to the pure
microsurgical technique.
101 perative sperm counts compared with the pure
microsurgical technique.
102 nd reproducibility of the results, including
microsurgical techniques and microsurgeons' skills, post
103 This procedure, however, requires
microsurgical techniques and significant coordination be
104 Using the
microsurgical techniques commonly used in amphibian and
105 Microsurgical techniques for vasal-epididymal reconstruc
106 The development of
microsurgical techniques has facilitated the establishme
107 The development of
microsurgical techniques has facilitated the establishme
108 Microsurgical techniques have reduced the incidence of p
109 recisely controllable, and highly repeatable
microsurgical techniques should enable automated, high-t
110 Optical
microsurgical techniques were employed to investigate th
111 omodulatory and immunosuppressive protocols,
microsurgical techniques, and computer-aided surgical pl
112 ficacy of TESE, including the application of
microsurgical techniques, are addressed.
113 neously on 2 adjacent operating rooms, using
microsurgical techniques.
114 anted into other male BALB/c nude mice using
microsurgical techniques.
115 children has benefitted from improvements in
microsurgical techniques.
116 rylate lenses and therefore, require special
microsurgical techniques.
117 .9-mm bent Dewey tip with a 30-degree bevel (
Microsurgical Technology Inc) were used for phacoemulsif
118 f the trabecular meshwork using the TrabEx+ (
MicroSurgical Technology, Redmond, Washington, USA) devi
119 he future application of pharmacological and
microsurgical therapeutics for cancer-associated lymphoe
120 ymphedema are used to test pharmacologic and
microsurgical therapies; however, no animal model for HN
121 Microsurgical,
tissue grafting and in situ hybridization
122 This review covers new robotic
microsurgical tools and applications of the robotic plat
123 The present review covers new robotic
microsurgical tools and applications of the robotic plat
124 xpertise in small animal handling and use of
microsurgical tools under a stereo microscope.
125 pig eye model provides a safe and effective
microsurgical training model and allows objective quanti
126 t by hindbrain tissue in the zebrafish using
microsurgical transplantation.
127 ermatic cord for chronic testicular pain and
microsurgical vascular anastomosis.
128 The use of robotic assistance during robotic
microsurgical vasovasostomy appears to decrease operativ
129 The use of robotic assistance during robotic
microsurgical vasovasostomy appears to decrease operativ
130 The use of robotic assistance during robotic
microsurgical vasovasostomy appears to decrease operativ