OBJECTIVE: To explore the reasons of poor sensation recovery after anterolateral thigh flap (ALTF) transplantation and to improve the design and sensation reconstruction of ALTF. METHODS: Lower limbs from 21 adult cadavers were chosen, and the lateral femoral cutaneous nerves (LFCN) were dissected. Their courses, shape, distribution and anatomic variation were observed, the distance from original sites of LFCN's posterior and anterior branches to the anterior superior iliac spine (ASIS) were measured, and the external diameter of their main trunks,after piercing out from the inferior margin of inguinal ligament or sending out their posterior branches and their anterior branches, were measured. RESULTS: The plane which the posterior branches sent out from the LFCN located at 4.8 (0~16.9) cm below the ASIS. The plane which the anterior branches sent out from the LFCN located at 14.2 (6.7~24.1) cm below the ASIS. There were 6 branches of the LFCN, namely ordinary three branches (9/21), high-level posterior branch (5/21), posterior branch absent (3/21), anterior branch absent (1/21), tiny branch, (2/21) and LFCN absent (1/21). The section of the LFCN was oblate, the external diameter of the LFCN,s main trunk after piercing out from the inferior margin of inguinal ligament or sending out its posterior branch and its anterior branch was 2.68 (1.18-4.52) mm, 2.18 (0.80-4.10) mm and 1.63 (0.44-2.60) mm, respectively. CONCLUSION Poor sensation recovery after ALTF transplantation is due to anatomic variation of the posterior branch of the LFCN. The sensory recovery of ALTF may be improved if the 2/3 low to median part of the anterolateral thigh and the main trunk of the LFCN or its plane before sending out the anterior branch is chosen for anastomosis.
Cadaver ; Female ; Humans ; Ilium ; anatomy & histology ; Inguinal Canal ; anatomy & histology ; Male ; Skin ; innervation ; Surgical Flaps ; innervation ; Thigh ; innervation

Compartment syndrome of the thigh is a rare condition, potentially resulting in devastating functional outcome. Increasing intracompartmental pressure which suppresses microcirculation and capillary perfusion may lead to cellular anoxia and muscle ischemia. The muscle compartments in the thigh have a more compliant fascia and blend anatomically into the open compartments of the pelvis, thus compensating higher volumes than the compartments in the lower leg. We present a previously unreported case in which the limb of a 36-year-old man was run over by a 25-ton truck. He presented with a sensomotor deficit in his left lower leg with full paralysis of the shank muscles and absence of all foot pulses. CT scan showed a huge haematoma in the thigh with active bleeding out of the popliteal artery into the haematoma which has already expanded into the muscle compartments of the lower leg. The limb had a disastrous compartment syndrome of the thigh and lower leg with disruption of the popliteal neurovascular bundle; however, no bones in the limb were fractured. A complete fasciotomy of all the lower limb muscle compartments was immediately performed. The artery was reconstructed with interposition of the smaller saphenous vein, which was already interrupted through the initial trauma.
Accidents, Traffic ; Adult ; Compartment Syndromes ; physiopathology ; Humans ; Leg ; blood supply ; innervation ; Male ; Thigh ; blood supply ; innervation

OBJECTIVETo investigate the therapeutic effect of primary reconstruction of skin avulsion injury with bilateral anterolateral thigh flaps combined with thorax umbilicus flap or latissimus dorsi flap.

METHODSFrom June 2005 to Aug. 2011, 4 cases with skin avulsion injury on both feet were treated. The bilateral anterolateral thigh flaps, including with anterolateral thigh cutaneous nerves, were transferred to cover the feet plantar. The thorax umbilicus flap or latissimus dorsi flap were used to cover the feet dorsum.

RESULTSAll the skin avulsion injury were reconstructed primarily. All the flaps survived completely with good cosmetic and functional results. The patients were followed up for 6 months to 2 years with good sensory recovery (two point discrimination: 14-18 mm).

CONCLUSIONThe skin avulsion injury on both feet can be primarily reconstructed by bilateral anterolateral thigh flaps combined with thorax umbilicus flap or latissimus dorsi flap.

Adolescent ; Follow-Up Studies ; Foot Injuries ; surgery ; Humans ; Lacerations ; surgery ; Myocutaneous Flap ; transplantation ; Reconstructive Surgical Procedures ; Skin ; injuries ; innervation ; Surgical Flaps ; innervation ; transplantation ; Thigh ; innervation

Conduction velocity of the saphenous nerve was studied antidromically. The value in 20 control subjects was 42.22 +/- 4.83 (SD) m/sec. In 7 patients with femoral neuropathy, the sensory nerve conduction in the symptomatic nerves was definitely abnormal : nerve potential was absent in 4 and conduction velocity was slow in 2. In 1 patient, a possible asymptomatic femoral neuropathy was suggested by this test. Conduction velocity of the saphenous nerve can be used as an objective diagnostic aid in femoral neuropathy, saphenous neuropathy and polyneuropathy.
Adult ; Female ; Femoral Nerve* ; Human ; Male ; Middle Age ; Neural Conduction* ; Peripheral Nervous System Diseases/physiopathology ; Thigh/innervation*

OBJECTIVETo identify and separate the ventral root from dorsal root, which is the key for success of the artificial somatic-autonomic reflex pathway procedure for neurogenic bladder after spinal cord injury (SCI). Here we report the results of intra-operating room monitoring with 10 paralyzed patients.

METHODSTen male volunteers with complete suprasacral SCI underwent the artificial somatic-autonomic procedure under general anesthesia. Vastus medialis, tibialis anticus and gastrocnemius medialis of the left lower limb were monitored for electromyogram (EMG) activities resulted from L4, L5, and S1 stimulation respectively to differentiate the ventral root from dorsal root. A Laborie Urodynamics system was connected with a three channel urodynamic catheter inserted into the bladder. The L2 and L3 roots were stimulated separately while the intravesical pressure was monitored to evaluate the function of each root.

RESULTSThe thresholds of stimulation on ventral root were 0.02 ms duration, 0.2-0.4 mA, (mean 0.3 mA+/-0.07 mA), compared with 0.2-0.4 ms duration, 1.5-3 mA (mean 2.3 mA+/-0.5 mA) for dorsal root (P<0.01) to cause revoked potentials and EMG. Electrical stimulation on L4 roots resulted in the EMG being recorded mainly on vastus medialis, while stimulation on L5 or S1 roots caused electrical activities of tibialis anticus or gastrocnemius medialis respectively. The continuous stimulation for about 3-5 seconds on S2 or S3 ventral root (0.02 ms, 20 Hz, and 0.4 mA) could resulted in bladder detrusor contraction, but the strongest bladder contraction over 50 cm H2O was usually caused by stimulation on S3 ventral root in 7 of the 10 patients.

CONCLUSIONSIntra-operating room electrophysiological monitoring is of great help to identify and separate ventral root from dorsal root, and to select the appropriate sacral ventral root for best bladder reinnervation. Different parameters and thresholds on different roots are the most important factors to keep in mind to avoid damaging the roots and to assure the best results.

Adult ; Autonomic Pathways ; physiopathology ; Electric Stimulation Therapy ; methods ; Electromyography ; Electrophysiology ; methods ; Humans ; Male ; Muscle Contraction ; Muscle, Skeletal ; physiopathology ; Muscle, Smooth ; physiopathology ; Reflex ; Spinal Cord Injuries ; complications ; physiopathology ; Spinal Nerve Roots ; physiopathology ; surgery ; Thigh ; Urinary Bladder ; innervation ; physiopathology ; Urinary Bladder, Neurogenic ; etiology ; physiopathology ; surgery