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Longitudinal Incision (longitudinal + incision)

Distribution by Scientific Domains
Medical Sciences50%

Selected Abstracts

,Cross-section gastroenterostomy' in patients with irresectable periampullary carcinoma

HPB, Issue 2 2001
O Horstmann
Background The most frequent complication following gastroenterostomy (GE) for gastric outlet obstruction is delayed gastric emptying (DGE), which occurs in roughly 20% of patients. There is evidence that DGE may be linked to the longitudinal incision of the jejunum and that a transverse incision (cross-section GE) may decrease the incidence of DGE following GE. Patients and methods In contrast to the orthodox GE, the jejunum is severed transversely up to a margin of 1.5 cm at the mesenteric border and the anastomosis is created with a single running suture. A Braun anastomosis is added 20,30 cm distally to the GE. Patients were followed prospectively with special regard to the occurrence of DGE. Results Between 1 August 1994 and 1 August 1998, 25 patients underwent cross-section GE, mostly because of an irresectable periampullary carcinoma. Eight patients exhibited clinical signs of gastric outlet obstruction preoperatively, while in 17 the GE was performed on a prophylactic basis. A biliary bypass was added in 15 patients. There was no disruption of the GE, but one patient died in hospital (4%). The nasogastric tube was withdrawn on the first postoperative day (range 0,6 days), a liquid diet was started on the fifth day (range 2,7 days) and a full regular diet was tolerated at a median of 9 days (6,14 days). The incidence of DGE was 4%: only the single patient who died fulfilled the formal criteria for DGE. Discussion In contrast to orthodox GE, DGE seems to be of minor clinical importance following cross-section GE. As the technique is easy to perform, is free of specific complications and leads to a low incidence of DGE, it should be considered as an alternative to conventional GE. [source]

Early results of a new open surgical technique for treatment of uretero-pelvic junction obstruction

INTERNATIONAL JOURNAL OF UROLOGY, Issue 4 2006
SAEED SHAKERI
Objective:, Here we report our initial experience with a new open surgical technique for treating uretero-pelvic junction obstruction (UPJO). Methods:, One centimeter distal to the site of the uretero-pelvic junction (UPJ) stenosis, a longitudinal incision of about 15 mm was made over the lateral side of the ureter. The renal pelvis was evacuated. Simultaneously, an oblique incision was made over the posterior and anterior walls of the renal pelvis. The most dependent point over the renal pelvis was sutured to the distal end of the ureterotomy incision. The anterior edge of the pyelotomy incision was anastomosed to the anterior edge of the ureterotomy incision and the posterior edge was anastomosed to the posterior edge of the ureterotomy incision. When the pyeloplasty was completed, the UPJ, accompanied by the proximal 1 cm of the ureter and excessive parts of the renal pelvis, was excised. Results:, In 21 (92%) out of 23 patients, the surgical technique was successful. Conclusions:, This technique results in predictably good outcomes and has the advantages of the dismembered method. It seems to be a valuable alternative treatment for UPJO. [source]

Vascular alterations in the rabbit patellar tendon after surgical incision

JOURNAL OF ANATOMY, Issue 5 2001
M. R. DOSCHAK
Open incision of the patellar tendon (PT) is thought to promote acute vascular responses which ultimately result in an enhanced degree of tendon repair. Such a clinical procedure is commonly applied to patients with refractory tendinitis. The objective of this study was to quantify the vascular adaptations (both anatomical and physiological) to longitudinal incision of the PT, and the resultant effects on tendon organisation. Fifty-four New Zealand White rabbits were separated into 3 experimental groups and 2 control groups. Experimental groups underwent surgical incision of the right PT, and were assessed 3 d, 10 d and 42 d following injury; normal unoperated controls were evaluated at time zero, and sham-operated controls were evaluated at 3 d to control for the effects of incising the overlying skin. Quantitative measures of PT blood supply (blood flow, microvascular volume) and geometric properties of PT substance were obtained for each PT. Histomorphology was assessed to evaluate vascular remodelling and matrix organisation in the healing PT. Longitudinal open incision surgery of the PT led to rapid increases in both blood flow and vascular volume. The incision of overlying tissues alone (sham-operated) contributed to this measurable increase, and accounted for 36% and 42% of the elevated blood flow and vascular volume respectively at the 3 d interval. In the incised PT, blood flow significantly increased by 3 d compared with both time zero and sham-operated controls, and remained significantly elevated at the 10 d interval. Similarly, vascular volume of the incised PT increased at 3 d compared both with time zero and sham-operated controls. At the 10 d interval, the increase in vascular volume was greatest in the central PT substance. By 42 d both blood flow and vascular volume of the incised tendon had diminished, with only blood flow remaining significantly different from controls. In the contralateral limb, a significant neurogenically mediated vasodilation was measured in the contralateral PTs at both early time intervals, but was not seen by the later 42 d interval. With respect to PT geometric properties in the experimental animals, a larger PT results as the tendon matrix and blood vessels remodel. PT cross-sectional area increased rapidly by 3 d to 1·3 times control values, and remained significantly elevated at 42 d postinjury. Morphological assessments demonstrated the disruption of matrix organisation by vascular and soft tissue components associated with the longitudinal incisions. Substantial changes in matrix organisation persisted at 42 d after surgery. These findings suggest that open longitudinal incision of the PT increases the vascular supply to deep tendon early after injury. These changes probably arise through both vasomotor and angiogenic activity in the tissue. Since PT blood flow and vascular volume return towards control levels after 6 wk but structural features remain disorganised, we propose that vascular remodelling is more rapid and complete than matrix remodelling after surgical incision of the PT. [source]

Assessment of spinal cord pathology following trauma using early changes in the spinal cord evoked potentials: A pharmacological and morphological study in the rat

MUSCLE AND NERVE, Issue S11 2002
Hari Shanker Sharma PhD
Abstract The possibility that spinal cord pathology following trauma can be assessed with early changes in the spinal cord evoked potentials (SCEPs) was examined in a rat model. Spinal cord injury (SCI) was produced in Equithesin-anesthetized (3 ml/kg, i.p.) rats through a longitudinal incision into the right dorsal horn at the T10,11 segments. The SCEPs were recorded with epidural electrodes placed over the T9 (rostral) segment of the cord. The SCEPs consisted of a small positive amplitude and a broad and high negative amplitude (NA). SCI resulted in an instant depression of the rostral NA that lasted for 1 h. However, the latency of NA continued to increase over time. At 5 h, spinal cord blood flow declined by 30% in the T9 segment, whereas the spinal cord water content and the permeability of the blood,spinal cord barrier (BSCB) were markedly increased. Damage to the nerve cells, glial cells, and myelin was quite common in the spinal cord, as seen by light and electron microscopy. Pretreatment with p -chlorophenylalanine, indomethacin, ibuprofen, and nimodipine attenuated the SCEP changes immediately after trauma and resulted in a marked reduction in edema formation, BSCB permeability, and blood flow changes at 5 h. However, pretreatment with cyproheptadine, dexamethasone, phentolamine, and propranolol failed to attenuate the SCEP changes after SCI and did not reduce the cord pathology. These observations suggest that early changes in SCEP reflect secondary injury-induced alterations in the cord microenvironment. Obviously, these changes are crucial in determining the ultimate magnitude and severity of cord pathology. © 2002 Wiley Periodicals, Inc. Muscle Nerve Supplement 11: S83,S91, 2002 [source]

Vascular alterations in the rabbit patellar tendon after surgical incision

JOURNAL OF ANATOMY, Issue 5 2001
M. R. DOSCHAK
Open incision of the patellar tendon (PT) is thought to promote acute vascular responses which ultimately result in an enhanced degree of tendon repair. Such a clinical procedure is commonly applied to patients with refractory tendinitis. The objective of this study was to quantify the vascular adaptations (both anatomical and physiological) to longitudinal incision of the PT, and the resultant effects on tendon organisation. Fifty-four New Zealand White rabbits were separated into 3 experimental groups and 2 control groups. Experimental groups underwent surgical incision of the right PT, and were assessed 3 d, 10 d and 42 d following injury; normal unoperated controls were evaluated at time zero, and sham-operated controls were evaluated at 3 d to control for the effects of incising the overlying skin. Quantitative measures of PT blood supply (blood flow, microvascular volume) and geometric properties of PT substance were obtained for each PT. Histomorphology was assessed to evaluate vascular remodelling and matrix organisation in the healing PT. Longitudinal open incision surgery of the PT led to rapid increases in both blood flow and vascular volume. The incision of overlying tissues alone (sham-operated) contributed to this measurable increase, and accounted for 36% and 42% of the elevated blood flow and vascular volume respectively at the 3 d interval. In the incised PT, blood flow significantly increased by 3 d compared with both time zero and sham-operated controls, and remained significantly elevated at the 10 d interval. Similarly, vascular volume of the incised PT increased at 3 d compared both with time zero and sham-operated controls. At the 10 d interval, the increase in vascular volume was greatest in the central PT substance. By 42 d both blood flow and vascular volume of the incised tendon had diminished, with only blood flow remaining significantly different from controls. In the contralateral limb, a significant neurogenically mediated vasodilation was measured in the contralateral PTs at both early time intervals, but was not seen by the later 42 d interval. With respect to PT geometric properties in the experimental animals, a larger PT results as the tendon matrix and blood vessels remodel. PT cross-sectional area increased rapidly by 3 d to 1·3 times control values, and remained significantly elevated at 42 d postinjury. Morphological assessments demonstrated the disruption of matrix organisation by vascular and soft tissue components associated with the longitudinal incisions. Substantial changes in matrix organisation persisted at 42 d after surgery. These findings suggest that open longitudinal incision of the PT increases the vascular supply to deep tendon early after injury. These changes probably arise through both vasomotor and angiogenic activity in the tissue. Since PT blood flow and vascular volume return towards control levels after 6 wk but structural features remain disorganised, we propose that vascular remodelling is more rapid and complete than matrix remodelling after surgical incision of the PT. [source]