Objective In order to simplify the hygiene processing and reduce the load of sleep monitoring,a method of sleep quality assessment on orbit without EEG is explored.Methods Using the open database ISRUC-Sleep with AASM standard,the training set(n=20)and the test set(sleep disorder group(n=10)and health group(n=10))are completely independent.The electrooculogram(EOG)features include the energy,the root mean square,correlation coefficients and phase-locked values between different frequency bands of two-channel EOG.The electromyogram(EMG)features include fractal dimension,root mean square,the mean value,the maximum value and the root mean square of EMG envelope.Linear support vector machine(LSVM)and random forest(RF)were used to classify wakefulness,REM sleep,light sleep and deep sleep.The accuracy was compared with the results that derived from six-channel electroencephalogram(EEG),two-channel EOG and one-channel EMG.Results Using 50 normalized features of EOG(44 features)and EMG(6 features),for sleep disorder group,kappa coefficients were both 0.75 by RF and by LSVM;for healthy group,the kappa coefficients were 0.73 by RF and 0.70 by LSVM.As a reference for AASM standard,using 140 normalized features of EEG(90 features),EOG(44 features)and EMG(6 features),for sleep disorder group,kappa coefficients were 0.78 by RF and 0.79 by LSVM;for healthy group,kappa coefficients were 0.74 by RF and 0.76 by LSVM.Conclusion The accuracy of sleep scoring from two-channel EOG and one-channel EMG is comparable with that of the gold standard,and can be applied to evaluate the sleep quality during manned spaceflight.

Objective To investigate the effect of iliac flap pedicled with superficial circumflex iliac artery and sartorius in the treatment of femoral neck fracture of the young adults.Methods From April,2012 to March,2017,50 cadaveric lower limbs were injected with red latex,and the origin,diameter,course and distribution of the superficial circumflex iliac artery and arteries of the sartorius were observed.The iliac flap pedicled with superficial circumflex iliac artery and sartorius was used to treat the femoral neck fracture in young adults in 11 cases.There were 9 males and 2 females with an average age of 34.5(ranged from 16 to 54) years.The fractures were classified ac cording to Garden:4 cases of type Ⅲ and 7 cases of type Ⅳ.Regular outpatient follow-up was made.Results The superficial circumflex iliac artery originated from the femoral artery and the initial diameter was (1.2±0.3) mm.The length of the superficial circumflex iliac artery to the anterior superior iliac spine was (8.8±1.3) cm.The superficial circumflex iliac artery run to the anterior superior iliac spine and sent 1-3 periosteal branches into the iliac crest.The sartorius originates from the anterior superior iliac spine,and its proximal artery arises from the superficial circumflex iliac artery and the femoral artery.Link-pattern arterial anastomosises were formed in sartorius by branches of adja cent vascular pedicles,which nourished the ilium flap.All incisions healed by first intention.All cases were followedup from 16 to 42 months,with an average of 32.3 months.All fractures healed for 3-7 months,with an average of 4.6 months.No fracture nonunion,femoral head necrosis and other complications occurred.Harris hip scores was 93.02± 5.33.Seven cases were excellent and 4 cases were good.Conclusion The iliac flap pedicled with superficial cir cumflex iliac artery and sartorius has rich blood supply,easily performed conducive to promoting fracture healing,and reducing the occurrence of femoral head necrosis.It is an effective method for the treatment of femoral neck fracture in young adults.

Objective To investigate the effect of retrograde sartorius myocutaneous flap for reparing skin defects of leg.Methods In the anatomic study,50 cadaveric lower limb were injected with red latex and the origin,diameter,course,distribution and anastomosis of sartorius's arteries were observed.Arteriographies were made in 4 sides of fresh specimens to study the arterial anastomosis in sartorius.Based on anatomic research results,we designed the retrograde sartorius myocutaneous flap for reparing skin defects of leg.Results Nutrient arteries of sartorius represented segnental distribution,Link-pattern arterial anastomosises were formed in sartorius by branches of adjacent vascular pedicles.Cutaneous arteries and musculocutaneous arteries above deep fascia formed interlocking arterial anastomosises net which provided blood supply for the skin on sartorius.The arterial branches in the distal 2/5 of sartorius came from saphenous artery,composed an arterial network around knee joint,which consist of anatomic basis for the blood supply of retrograde sartorius myocutaneous flap.Form February,2010 to April,2014,the retrograde sartorius myocutaneous flap were used to repair skin defects of leg in 2 cases.The flap size ranged from 7 cn×18 cm to 12 cm×25 cm.All flaps survived successfully with no ulcer.2 cases were followed up for 7 to 16 months.The skin color and texture were satisfactory.Conclusion the retrograde sartorius myocutaneous flap has constantly,reliable blood supply,and easily performed.It is an effective method for the reconstruction skin defects of leg.

OBJECTIVETo investigate the effect of reverse saphenous nerve neurocutaneous flaps for skin defects of forefoot.

METHODSIn the anatomic study, 50 cadaveric feet were injected with red latex and the anastomosis, distribution and external diameters of medialtarsal artery, medial anterior malleolus artery, medial plantar artery, the superficial branch of the medial basal hallucal artery and saphenousnerve nutritional vessels were observed. Based on anatomic research results, we designed the reverse saphenous nerve neurocutaneous flaps for repairing skin defects of forefoot.

RESULTSThe blood supply of reverse saphenous nerve neurocutaneous flaps were based on the vasoganglion, which consist of arterial arch at the superior border of abductor hallucis and arterial network on the surface of abductor hallucis around the saphenous nerve and medial pedis flap. From Oct. 2006 to Oct. 2011, the reverse saphenous nerve neurocutaneous flaps were used to repair skin defects of forefoot in 11 cases. The flap size ranged from 2.5 cm x 3.5 cm to 7.5 cm x 8.5 cm. The wounds at donor site were covered with full-thickness skin graft. All flaps survived completely with no ulcer at the donor site. 11 cases were followed up for 6 to 18 months( mean, 10 months). The skin color and texture were satisfactory. The patients could walk very well.

CONCLUSIONSIt is reliable to repair the skin defects of forefoot with reverse saphenous nerve neurocutaneous flaps. It is easily performed with less morbidity. This flap should be considered as a preferential way to reconstruct skin defects of forefoot.

Arteries ; anatomy & histology ; Cadaver ; Female ; Foot ; blood supply ; innervation ; Forefoot, Human ; injuries ; surgery ; Humans ; Male ; Muscle, Skeletal ; anatomy & histology ; Reconstructive Surgical Procedures ; Skin Transplantation ; methods ; Surgical Flaps ; blood supply ; innervation ; Transplant Donor Site ; surgery

Objective To explore a surgical treatment of skin defects on the thumb by reverse-flow island flaps on dorsal thumb web with dorsoulnar artery of thumb as a pedicle.Methods The origin,courses and distribution of dorsoulnar artery of thumb from 70 adult cadaveric hand specimens perfused by red latex were explored.Skin defects on the thumb of 8 cases were repaired with reverse-flow island flaps on dorsal thumb web.The cut areas of flaps vary from 4.5 cm × 3.0 cm to 7.5 cm × 4.0 cm.Results There were 4 types of the dorsoulnar artery of thumb basing on the origin and courses.Type Ⅰ was outside the first dorsal interosseous muscle type,which was the dorsoulnar artery of thumb mainly originated from the first dorsal metacarpal artery and cross through the surface of the first dosal interosseous muscle(42.9％).Type Ⅱ was under the first dorsal interosseous muscle type,which was from the thumb principal artery or deep branch of radial artery and run under the first dorsal interosseous muscle(41.4％).Type Ⅲ was mixed type from the anastomose point of above two arteries at the level of the first metacarpophalangeal joint(11.4％).Type Ⅳ was absence type (4.3％).Eight flaps fully survived.Excellent texture and satisfying appearance of the flaps as well as normal thumb web function were verified after 8 months' follow-up.Conclusion It is significant to determine the type of dorsoulnar artery of thumb to decide different operations due to the artery's considerable variation.The reverse-flow island flap on dorsal thumb is an ideal method to repair soft tissue defect on the thumb for its convenient operating and little effect in the donor area.

Objective To explore the methods of repairing great toe soft tissue defect with the reverse medial pedis island flap with transverse artery of great toe.Methods This study was made up of two parts:an anatomical study and clinical application.In the anatomical study,49 cadaveric feet were injected with red latex and then anostomosis,distribution and external diameters of transverse artery of great toe,the deep branches of the first plantar metatarsal arteries and the deep branches of medial plantar artery were observed.From September 2006 to December 2012,8 cases of soft-tissue defects with the retrograde-flow medial pedis island flaps were harvested to cover the soft tissue defects of great toe.Soft tissue defect was form 2.5 cm × 3.5 cm-3.5 × 4.5 cm.Results There was an arterial circle under the first metatarsophalangeal joint which consisted of transverse artery of great toe,tibial proper plantar digital artery of great toe,fibular proper plantar digital artery of great toe and the distal part of first plantar metatarsal artery.This arterial circle under the first metatarsophalangeal joint and arterial network on the surface of abductor hallucis was responsible for the blood supply of the flap of medial pedis.The diameter of the pedicle was great,and the length of the pedicle was longer than in previous reported.In terms of clinical application,all patients were followed up with the mean of 10 months (range fromn 6-24 months).All flaps survived totally without diabrosis and swelling.The walking and weight-bearing were normal and the blood supply of foot was good.Conclusion Using of arterial circle under the first metatarsophalangeal joint,the medial pedis island flap has a reliable retrograde blood supply.The reverse point of the reverse medial pedis flap moved forward to th interphalangeal joint.This flap should be considered as a preferential way to reconstruct soft-tissue defects of the great toe.

Objective To explore surgical methods of repairing tibial skin defect using the anterolateral crural island flap.Methods The location,external diameters,anastomosis and distribution of perforators from the anterior tibial artery and the peroneal artery in the anterior septum were observed in 40 cadaveric specimens.Arterial angiography was performed in 4 fresh legs.Clinically,11 cases with tibial skin defect were repaired with the anterolateral crural island flap.There were 7 males and 4 females,with an average of 36 years (20-59 years).The area of the skin defect ranged from 6 cm×4 cm to 12 cm×4 cm.Results An arterial chain was formed by the interconnection of the superficial peroneal artery,the anterior septocutaneous perforator from distal part of the anterior tibial artery and the anterior end-perforator of the peroneal artery.It ran in the anterior septum and went along with the superficial peroneal nerve to supply blood to adjacent fascia and skin.The external diameters of the three perforators were (1.4±0.4) mm,(1.0±0.4) mm and (1.5±0.4) mm respectively,and the external diameter of the arterial chain was (0.6±0.2) mm.Clinically,we designed 4 methods to repair 11 cases of tibial skin defect successfully with the anterolateral cnnal island flap.The anterior septocutaneous perforator from distal part of the anterior tibial artery was used as pedicle in 2 cases;ascending branch of the anterior septocutaneous perforator from distal part of the anterior tibial artery was used as pedicle in 3 cases;descending branch of the anterior septocutaneous perforator from distalpart of the anterior tibial artery was used as pedicle in 3 cases;ascending branch of the anterior end-perforator of the peroneal artery was used as pedicle in 3 cases.The area of the flaps ranged between 7 cm×5 cm and 13 cm×5 cm.All patients were followed up with a mean time of 1.5 years.All flaps survived totally without diabrosis and swelling.Conclusion The anterolateral island flaps pedicled with perforators arising from the anterior septum of the lower leg is a good choice for surgeons to repair tibial skin defect.

Objective To explore the method of repairing skin defects in the foot, the ankle and the lower one-third of the lower leg with anterolateral island flaps of the lower leg formed by isolating peroneal artery from the anterior interosseous membrane of the lower leg. Methods 46 adult cadavers' lower legs were anatomized, to observe the blood supply of the anterolateral skin, the lateral anterior malleolar artery anastomoses with anterior perforating branches of the peroneal artery, and the relationship between peroneal vessels and interosseous membrane of the lower legs. Clinically, 8 cases(7 males, 1 female, age ranged from 7 to 48 years) of skin defects of the feet, the ankles and the lower one-third of the lower legs were repaired with anterolateral island flaps of the lower leg by isolating the peroneal vessels from the anterior interosseous membrane of the lower legs from June 1996 to August 2004. The flaps were cut into sizes between 7 cm ? 4 cm and 23 cm ? 12 cm. Results Averaged 3.2 anterior branches stem from the lower one-third of the peroneal artery, extend through the foremina in the interosseous membrane, pass the anterior intermuscular septum of the lower leg, arrive and provide nutrition to the anterolateral skin of the lower leg. The lateral anterior malleolar artery anastomosed with the lowest perforating branch of the peroneal artery to form the lateral malleolar artery arch. The peroneal vessels easily isolated after incision of the interosseous membrane of the lower leg. Eight cases were performed on transposition of the anterolateral island flaps with the artery pedicles of the lower leg. All the patients were followed up from 1 to 8 years, with a mean of 3 years. Only 1 case was necrosis at the distal one-third of the flap. The others totally survived without diabrosis and swelling. The ankle and phalanges had normal movement. The color and texture of the flaps were excellent. The sensation of flaps recovered in 4 cases by suture superficial peroneal nerve. All cases suffered hypoesthesia at the 3rd and 4th toe web. Conclusion Isolating peroneal artery and vein from the anterior interosseous membrane of the lower leg proved easy to perform. Peroneal artery are not main blood vessels and the excision of them affects blood supply to the foot insignificantly. The skin flaps thus formed are ideal for repairing skin defects of the foot, the ankle and the lower one-third of the lower leg.