Your search keyword '"Superficial Back Muscles blood supply"' showing total 7 results

1. Correlation between blood flow, tissue volume and microvessel density in the flap.

Author

Nakamura Y, Takanari K, Nakamura R, Ono M, Uchibori T, Hishida M, Murotani K, Ebisawa K, Akagawa M, and Kamei Y

Subjects

Animals, Free Tissue Flaps physiology, Free Tissue Flaps transplantation, Jejunum physiology, Jejunum transplantation, Microvascular Density, Organ Size, Rabbits, Superficial Back Muscles physiology, Superficial Back Muscles transplantation, Surgical Flaps blood supply, Surgical Flaps physiology, Vascular Resistance, Free Tissue Flaps blood supply, Jejunum blood supply, Superficial Back Muscles blood supply

Abstract

The purpose of this study was to assess the correlation between tissue volume and blood flow of the flap in an animal model. Using animal model, tissue volume can be attenuated, and precise change of blood flow could be evaluated. We further investigate the relationship between blood flow and vascular density in the tissue. In this study, we assessed flap conductance (ml/min/mm Hg) as to evaluate the conductivity of blood flow into the flap. Japanese white rabbit was used (n = 7) for this study. The amount of blood flow of jejunal and latissimus dorsi muscle (LD) flaps was measured while removing the distal portion of the flap sequentially. Conductance at each time was calculated from blood pressure and blood flow volume. The tissue volume at each time was also measured. The correlation between conductance and volume was analyzed using a linear mixed model. Immunohistochemical evaluation of microvessel densities (MVD) in these tissues was also performed for CD31/PECAM1 positive area. Conductance and tissue volume were significantly correlated in both jejunal and LD flaps. As the volume increases by 1 cm 3 , the conductance increased significantly by 0.012 ml/min/mm Hg in jejunum, and by 0.0047 ml/min/mm Hg in LD. Mean MVD was 1.15 ± 0.52% in the jejunum and 0.37 ± 0.29% in the LD muscle. In this study, we revealed that flap conductance is proportional to volume and proportional constant is different between the type of tissue. It suggests that the difference of MVD creates the unique conductance of each tissue., Competing Interests: The authors have no conflicts of interest, whether they are financial or related to any other relationships, to disclose.

Published

2020

2. Reconstruction of a lumbosacral defect using free latissimus dorsi flap with arteriovenous-loop: impact of preserving serratus branch temporarily.

Author

Tuncer S, Uygur S, Kaya B, Karadag G, and Ayhan S

Subjects

Humans, Male, Middle Aged, Plastic Surgery Procedures methods, Superficial Back Muscles blood supply, Surgical Flaps blood supply, Surgical Wound Dehiscence surgery

Published

2015

3. Intra and postoperative evaluations of microcirculation and micro-rheological parameters in a rat model of musculocutaneous flap ischemia-reperfusion.

Author

Klarik Z, Tamas R, Toth E, Kiss F, Kovacs EL, Jäckel M, Furka I, and Nemeth N

Subjects

Animals, Dermatologic Surgical Procedures, Disease Models, Animal, Intraoperative Period, Laser-Doppler Flowmetry, Male, Myocutaneous Flap pathology, Postoperative Period, Random Allocation, Rats, Skin pathology, Skin Transplantation methods, Superficial Back Muscles pathology, Time Factors, Hemorheology physiology, Microcirculation physiology, Myocutaneous Flap blood supply, Reperfusion Injury physiopathology, Skin blood supply, Superficial Back Muscles blood supply

Abstract

Purpose: To examine how the ischemia-reperfusion injury of latissimus dorsi-cutaneous maximus (LDCM) musculocutaneous flap affects the microcirculatory (flap's skin surface) and hemorheological parameters, and whether an intraoperative deterioration would predictively suggest flap failure in the postoperative period., Methods: Ten healthy male rats were subjected to the study. In Group I the left flap was sutured back after 2-hour, while the contralateral side was right after its elevation. In Group II the same technique was applied, but the pedicle of the left flap was atraumatically clamped for 2-hour. The contralateral side was left intact. On the flap skin surface laser Doppler tissue flowmetry measurements were done before and after and during the protocols applied in the groups. Microcirculatory and hemorheological examinations were done postoperatively., Results: The microcirculatory parameters significantly decreased during immobilization and ischemia. Afterwards, all the regions showed normalization. In the retrospective analysis there was a prominent difference between the microcirculatory parameters of necrotic and survived flap during the early postoperative days (1-3) in Group II. Erythrocyte aggregation and deformability showed only slight differences., Conclusions: Two-hour ischemia and reperfusion caused deterioration in latissimus dorsi-cutaneous maximus flap microcirculation. Predicting the possible postoperative complication, the intraoperative laser Doppler measurement can be informative.

Published

2015

4. Algogenic substances and metabolic status in work-related Trapezius Myalgia: a multivariate explorative study.

Author

Gerdle B, Kristiansen J, Larsson B, Saltin B, Søgaard K, and Sjøgaard G

Subjects

Adult, Bradykinin metabolism, Case-Control Studies, Female, Glutamic Acid metabolism, Humans, Interleukin-6 metabolism, L-Lactate Dehydrogenase metabolism, Microdialysis, Multivariate Analysis, Pain Threshold, Peptide Fragments metabolism, Potassium metabolism, Procollagen metabolism, Pyruvic Acid metabolism, Regional Blood Flow, Serotonin metabolism, Substance P metabolism, Superficial Back Muscles blood supply, Myalgia drug therapy, Myalgia metabolism, Superficial Back Muscles metabolism

Abstract

Background: This study compares the levels of algesic substances between subjects with trapezius myalgia (TM) and healthy controls (CON) and explores the multivariate correlation pattern between these substances, pain, and metabolic status together with relative blood flow changes reported in our previous paper (Eur J Appl Physiol 108:657-669, 2010)., Methods: 43 female workers with (TM) and 19 females without (CON) trapezius myalgia were - using microdialysis - compared for differences in interstitial concentrations of interleukin-6 (IL-6), bradykinin (BKN), serotonin (5-HT), lactate dehydrogenas (LDH), substance P, and N-terminal propeptide of procollagen type I (PINP) in the trapezius muscle at rest and during repetitive/stressful work. These data were also used in multivariate analyses together with previously presented data (Eur J Appl Physiol 108:657-669, 2010): trapezius muscle blood flow, metabolite accumulation, oxygenation, and pain development and sensitivity., Results: Substance P was significantly elevated in TM (p=0.0068). No significant differences were found in the classical algesic substances (p: 0.432-0.926). The multivariate analysis showed that blood flow related variables, interstitial concentrations of metabolic (pyruvate), and algesic (BKN and K+) substances were important for the discrimination of the subjects to one of the two groups (R2: 0.19-0.31, p<0.05). Pain intensity was positively associated with levels of 5-HT and K+ and negatively associated with oxygenation indicators and IL-6 in TM (R2: 0.24, p<0.05). A negative correlation existed in TM between mechanical pain sensitivity of trapezius and BKN and IL-6 (R2: 0.26-0.39, p<0.05)., Conclusion: The present study increased understanding alterations in the myalgic muscle. When considering the system-wide aspects, increased concentrations of lactate, pyruvate and K+ and decreased oxygenation characterized TM compared to CON. There are three major possible explanations for this finding: the workers with pain had relatively low severity of myalgia, metabolic alterations preceded detectable alterations in levels of algesics, or peripheral sensitization and other muscle alterations existed in TM. Only SP of the investigated algesic substances was elevated in TM. Several of the algesics were of importance for the levels of pain intensity and mechanical pain sensitivity in TM. These results indicate peripheral contribution to maintenance of central nociceptive and pain mechanisms and may be important to consider when designing treatments.

Published

2014

5. A coincidental variation of the axillary artery: the brachioradial artery and the aberrant posterior humeral circumflex artery passing under the tendon of the latissimus dorsi muscle.

Author

Konarik M, Kachlik D, and Baca V

Subjects

Aged, Axillary Artery embryology, Brachial Artery embryology, Cadaver, Female, Humans, Male, Radial Artery embryology, Superficial Back Muscles anatomy & histology, Superficial Back Muscles blood supply, Tendons anatomy & histology, Tendons blood supply, Axillary Artery abnormalities, Brachial Artery abnormalities, Radial Artery abnormalities

Abstract

A case of anomalous terminal branching of the axillary artery was encountered and described in a left upper limb of a male cadaver. A series of 214 upper limbs of Caucasian race was dissected. A variant artery, stemming from the very end of the axillary artery followed a superficial course distally. It passed the cubital fossa, ran on the lateral side of the forearm as usual radial artery, crossed ventrally to the palm and terminated in the deep palmar arch. This vessel is a case of the brachioradial artery (incorrectly termed as the "radial artery with high origin"). Moreover, it was associated with another variation, concerning the aberrant posterior humeral circumflex artery passing under the tendon of the latissimus dorsi muscle. The anatomical knowledge of the axillary region is essential for radiodiagnostic, surgical and traumatologic procedures. The superficially located artery brings an elevated danger of heavy bleeding in all unexpected situations, its variant branching can cause problems in radial catheterization procedures and the anomalously coursing other arterial variant poses an elevated danger in surgical procedures concerning the surgical neck of humerus.

Published

2014

6. [Coverage of vast defects of the head using combined autotransplants with inclusion of M. pectoralis major and M. latissimus dorsi].

Author

Avetikov DS, Sokolov VM, Stavyts'kyĭ SO, Iatsenko IV, and Lokes KP

Subjects

Autografts, Face blood supply, Humans, Male, Middle Aged, Pectoralis Muscles blood supply, Plastic Surgery Procedures methods, Superficial Back Muscles blood supply, Surgery, Computer-Assisted, Surgical Flaps blood supply, Face surgery, Facial Injuries surgery, Pectoralis Muscles transplantation, Superficial Back Muscles transplantation, Surgical Flaps transplantation

Published

2014

7. Muscle contraction increases interstitial nitric oxide as predicted by a new model of local blood flow regulation.

Author

Golub AS, Song BK, and Pittman RN

Subjects

Animals, Arterioles physiology, Extracellular Fluid metabolism, Fluorescent Dyes, Male, Rats, Rats, Sprague-Dawley, Signal Transduction, Superficial Back Muscles blood supply, Superficial Back Muscles physiology, Superoxides metabolism, Vasodilation physiology, Models, Cardiovascular, Muscle Contraction physiology, Nitric Oxide metabolism, Regional Blood Flow physiology

Abstract

The prevailing metabolic theory of local blood flow regulation suggests the dilatation of arterioles in response to tissue hypoxia via the emission of multiple metabolic vasodilators by parenchymal cells. We have proposed a mechanism of regulation, built from well-known components, which assumes that arterioles are normally dilated in metabolically active tissues, due to the emission of NO by the endothelium of microvessels. Regulation of local blood flow aims at preventing an excessive supply of oxygen (O2) and glucose to the tissue and thus provides an adequate supply, in contrast to the metabolic regulation theory which requires permanent hypoxia to generate the metabolic vasodilators. The mediator of the restrictive signal is superoxide anion (O2(-)) released by membrane NAD(P)H oxidases into the interstitial space, where it neutralizes NO at a diffusion-limited rate. This model predicts that the onset of muscle contraction will lead to the cessation of O2(-) production, which will cause an elevation of interstitial NO concentration and an increase in fluorescence of the NO probe DAF-FM after its conversion to DAF-T. The time course of DAF-T fluorescence in contracting muscle is predicted by also considering the washout from the muscle of the interstitially loaded NO indicator. Experiments using pulse fluorimetry confirmed an increase in the interstitial concentration of NO available for reaction with DAF-FM during bouts of muscle contraction. The sharp increase in interstitial [NO] is consistent with the hypothesis that the termination of the neutralizing superoxide flow into the interstitium is associated with the activation of mitochondria and a reduction of the interstitial oxygen tension. The advantage of the new model is its ability to explain the interaction of metabolic activity and local blood flow through the adequate delivery of glucose and oxygen.

Published

2014