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> Disorders > Injury or Poisoning > Laceration

Laceration

Laceration is a tear or cut in the skin or other body tissue.
It can range from a minor scrape to a deep, gaping wound.
Lacerations may be caused by a variety of events, such as accidents, falls, or sharp objects.
Proper treatment is important to prevent infection and promote healing.
This may include cleaning the wound, applying pressure to stop bleeding, and closing the laceration with stitches, staples, or adhesive strips.
Prompt medical attention is recommended for large or deep lacerations, as well as those that involve important structures like tendons or nerves.
With appropriate care, most lacerations heal well and restore normal skin function.
Reserach in this area focuses on optimizing treatment protocols to ensure the best posible outcomes for patients.

Most cited protocols related to «Laceration»

1
Family-Based Genetic Research Recruitment
This is a family-based study, recruiting participants and their relatives mainly through primary care. Recruitment of general practices is facilitated by Scottish Practices and Professionals Involved in Research (SPPIRe) [11 ]. Potential participants are identified from the registers of collaborating general practices via the Community Health Number, a unique identifying number allocated to every individual in Scotland who is registered with a general practitioner (GP), ie approximately 96% of the population. They are eligible to participate if they are aged between 35 and 55 years and have at least one first degree relative aged 18 years or over, and at least one full sibling group (the larger the better) in the participating family group.
An independent party, based in the NHS, generates a list of eligible people registered with each collaborating general practice, from the Scottish NHS register (known as the Community Health Index (CHI)). The names of all potential participants are screened by their GP, and individuals whom it might be inappropriate to approach (such as those with a serious or terminal illness, or those unable to consent) are excluded. Letters of invitation to eligible participants are generated on practice headed note-paper and signed by one of its GP Principals. These letters are dispatched by the independent party by post, with up to two reminders as required. This invitation is for agreement to discuss the study with family members with a view to possible participation. When the eligible person returns the tear-off slip agreeing to be contacted by the research team the individual's details are sent from the independent party to the study team.
In addition, targeted approaches in the Tayside area will be made to potentially eligible individuals whose details are held on the Walker Birth Cohort database [12 (link)]. This is a database of over 48,000 births in Dundee between 1952 and 1966, identified by CHI numbers, and therefore with current information about family structure and location. This provides the opportunity to approach individuals and their families simultaneously, with the ability to maximise the efficiency of recruitment by targeting larger local families in the first instance.
Upon receiving their permission, potential participants are contacted by a member of the research team to ensure that participants understand the study, that all demographics and details are accurate, and to discuss participation in the study with the relevant first degree relatives (including at least one sibling group). The names and contact details are requested of all first degree relatives who have verbally indicated, to the individual initially contacted, their willingness to be approached by the research team. These relatives are then also contacted by telephone by the study team. Each relative contacted is invited to discuss with and identify further first degree relatives, and so on, with the aim of creating a "snowball" sampling effect.
Similar methods of approaching and recruiting participants and their relatives have been successfully used in other studies in which several of the co-applicants have been closely involved. These include the British Genetics of Hypertension (BRIGHT) study [13 ] and "Family and population genetic studies in major mental illness" (D Blackwood et al). Although it is the main method of approach and recruitment, it will be augmented by a programme of communication and publicity about the study. Throughout this programme, individual families will be invited to volunteer directly for the study, by contacting the research team. They will be able to participate if the family includes at least one sibling pair.
Smith B.H., Campbell H., Blackwood D., Connell J., Connor M., Deary I.J., Dominiczak A.F., Fitzpatrick B., Ford I., Jackson C., Haddow G., Kerr S., Lindsay R., McGilchrist M., Morton R., Murray G., Palmer C.N., Pell J.P., Ralston S.H., St Clair D., Sullivan F., Watt G., Wolf R., Wright A., Porteous D, & Morris A.D. (2006). Generation Scotland: the Scottish Family Health Study; a new resource for researching genes and heritability. BMC Medical Genetics, 7, 74.
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Publication 2006
ARID1A protein, human Birth Cohort Family Member Family Structure High Blood Pressures Laceration Mental Disorders Primary Health Care Voluntary Workers Walkers
2
Tear Breakup Time Measurement

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Publication 2009
Blinking Cobalt Cornea Eye Fluorescein Laceration Light Mucus Neoplasm Metastasis Patients Sensitive Populations Slit Lamp Vision
3
Consensus on Muscle Injury Terminology
To evaluate the extent of the inconsistency and insufficiency of the existing terminology of muscle injuries in the English literature a questionnaire was sent to 30 native English-speaking sports medicine experts. The recipients of the questionnaires were invited based on their international scientific reputation and extensive expertise as team doctors of the national or first division sports teams from the Great Britain, Australia the USA, the FIFA, UEFA and International Olympic Committee. The included experts were responsible for covering a variety of different sports with high muscle injury rates including football/soccer, rugby, Australian football and cricket. Qualification criteria also included long-term experience with sports team coverage which limited the number of available experts since team physicians often tend to change after short periods.
The questionnaire (see online supplementary appendix 1) was divided into three categories: first, the experts were asked to individually and subjectively describe their definitions of several common terms of muscle injuries and to indicate if the term is a functional (non-structural) or a structural disorder/injury. In the second category, they were asked to associate synonym terms of muscle injuries such as strain and tear. In the final category, the experts were asked to list given number of muscle injury terms in the order their increasing injury severity.
Following the completion of the survey, the principal authors (H-WM-W, LH and PU) organised a consensus meeting of 15 international experts on the basic science of muscle injury as well as sports medicine specialists involved in the daily care of premier professional sports and national teams. The meeting was endorsed by the International Olympic Committee (IOC) and the UEFA.
A nominal group consensus model approach in which ‘a structured meeting attempts to provide an orderly procedure for obtaining qualitative information from target groups who are most closely associated with a problem area’27 (link) was adopted for creating a consensus statement on terminology and classification of muscle disorders and injuries. This model was successfully applied before in other consensus statements.28 (link)
During the 1-day meeting, the authors performed a detailed review of the structural and functional anatomy and physiology of muscle tissue, injury epidemiology and currently existing classification systems of athletic muscle injuries. In addition, the results of the muscle terminology survey were presented and discussed. Based on the results of the survey muscle injury terminology was discussed and defined until a unanimous consensus of group was reached. A new classification system empirically based on the current knowledge about muscle injuries was discussed, compared with existing classifications, reclassified and approved. After the consensus meeting, iterative draft consensus statements on the definitions and the classification system were prepared and circulated to the members. The final statement was approved by all coauthors of the consensus paper.
Mueller-Wohlfahrt H.W., Haensel L., Mithoefer K., Ekstrand J., English B., McNally S., Orchard J., van Dijk C.N., Kerkhoffs G.M., Schamasch P., Blottner D., Swaerd L., Goedhart E, & Ueblacker P. (2012). Terminology and classification of muscle injuries in sport: The Munich consensus statement. British Journal of Sports Medicine, 47(6), 342-350.
Publication 2012
Athletic Injuries Gryllidae Injuries Laceration Muscle Tissue Myopathy Physicians physiology Specialists Strains
4
Skeletal Muscle Cell Isolation
Skeletal muscle from both hindlimbs was carefully dissected and then gently torn with tissue forceps until homogeneous. Collagenase type 2 (Sigma; 2ml of 2.5 U ml−1), in 10 mM CaCl2, was added to every two hindlimbs, and the preparation was placed at 37 C for 30 min. After washing, a second enzymatic digestion was performed with Collagenase D (Roche Biochemicals; 1.5 U ml−1) and Dispase II (Roche Biochemicals; 2.4 U ml−1), in a total volume of 1 ml per mouse, at 37 C for 60 min. Preparations were passed through a 40-μm cell strainer (Becton Dickenson), and washed. Resulting single cells were collected by centrifugation at 400g for 5 min.
Joe A.W., Yi L., Natarajan A., Le Grand F., So L., Wang J., Rudnicki M.A, & Rossi F.M. (2010). Muscle injury activates resident fibro/adipogenic progenitors that facilitate myogenesis. Nature cell biology, 12(2), 153-163.
Publication 2010
Cells Centrifugation Collagenase Digestion dispase II Enzymes Forceps Hindlimb Laceration Mus Neutrophil Collagenase Skeletal Muscles Tissues
5
Screening for Postpartum Depression with EPDS

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Publication 2014
Anhedonia Anxiety Depression, Postpartum Disorder, Depressive Fatigue Feelings Granisetron Guilt Hypersensitivity Laceration Medically Unexplained Symptoms Panic Attacks Postpartum Women Sadness Sleep Sleep Disorders Woman

Most recents protocols related to «Laceration»

1
Postoperative Shoulder Rehabilitation Protocol

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Publication 2023
Braces Exercise, Isometric Gravity Laceration Muscle Strength Patients Rehabilitation Tendons
2
Analyzing Shoulder Cuff Tendon Thickness

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Publication 2023
Atrophy Laceration Tears
3
Modified Transosseous-Equivalent Shoulder Repair

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Publication 2023
Bone and Bones Bone Marrow Cardiac Arrest Cartilage Cicatrix Cortex, Cerebral General Anesthesia Laceration Ligaments, Coracoacromial Operative Surgical Procedures Patients Perfusion Plant Tubers Pressure Suture Anchors Sutures Tendons Tissues
4
Identifying Repeat Injuries in Infants
SIS were defined and identified by a diagnosis of ecchymosis, contusion, fracture, head injury, intracranial hemorrhage, abdominal trauma, open wound, laceration, abrasion, oropharyngeal injury, genital injury, intoxication, or burn in a child < 6.01 months of age. A complete list of ICD-10 codes as well as diagnostic categories employed in the current study may be found in the supplementary materials. Children < 6.01 months of age (at initial visit) were included in this study. The age range and ICD diagnoses were chosen to correspond with those selected by the TRAIN collaborative [28 (link)].
A repeat injury was defined as a subsequent visit for any of the above-mentioned ICD diagnoses within 12 months of the initial visit. Follow-up visits for initial injuries were excluded.
A skeletal survey was considered positive if it demonstrated any fracture in the absence of initial imaging, if it demonstrated an additional fracture if initial ED imaging was obtained, or if the skeletal survey read recommended additional imaging and further imaging demonstrated an additional fracture.
Heyming T., Knudsen-Robbins C., Sharma S., Thackeray J., Schomberg J., Lara B., Wickens M, & Wong D. (2023). Child physical abuse screening in a pediatric ED; Does TRAIN(ing) Help?. BMC Pediatrics, 23, 117.
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Publication 2023
Birth Injuries Child Contusions Craniocerebral Trauma Diagnosis Ecchymosis Fracture, Bone Injuries Injury, Abdominal Intracranial Hemorrhage Laceration Oropharynxs Reinjuries Skeleton Wounds
5
Targeted Temperature Management in STBI
A total of 120 patients with STBI, who were treated in our hospital from February 2019 to April 2021, were selected in the present study. The patients were randomly divided into control and experimental groups. The control group accepted mild hypothermia therapy. The experimental group accepted targeted temperature management and mild hypothermia therapy. In the control group, the age ranged from 37 to 67 years old with an average of 45.91 ± 3.53 years, including 34 males and 26 females. The GCS score was 3 to 7 with an average of (5.13 ± 1.31). Types of injury included 8 cases of intracranial hematoma, 45 cases of brain contusion and laceration and 7 cases of other injuries. The time from injury to admission was 1 to 3.1 hour with an average of 2.12 ± 0.22 hours. In the experimental group, the age ranged from 35 to 70 years old with an average age of 42.75 ± 3.53 years. The experimental group included 31 males and 29 females with a GCS score of 3 to 7 and an average of 5.53 ± 1.42 points. The type of injury included 10 cases of intracranial hematoma, 43 cases of brain contusion and laceration and 7 cases of others. The time from injury to admission was 1 to 3.5 hours with an average of 2.53 ± 0.21 hours. There exhibited no statistical significance in the general data. This study was permitted by the medical ethics association of our hospital and all patients signed informed consent.
Inclusion criteria: All patients were admitted to hospital within 12 hours after injury; The diagnosis was confirmed by head computerized tomography or magnetic resonance imaging scan and there was no serious combined injury of other organs; No cerebral hemorrhage, cerebral infarction and traumatic brain injury, no major diseases of cardiopulmonary system, liver and kidney system and hematopoietic system were found in the past; There was no history of infection before injury; According to the GCS coma scoring method: 3 ≤ GCS < 8.
Exclusion criteria: Severe combined injury or organ injury, which was life-threatening; GCS limb motor score = 6, or unable to assess consciousness with severe alcoholism; Complicated with severe systemic diseases, such as severe heart disease, hepatorenal insufficiency; Systolic blood pressure < 90 mm Hg or blood oxygen saturation < 93% after resuscitation; Platelet count < 50000/mm3; and Pregnant or lactating women.
Wang Y., Huang C., Tian R, & Yang X. (2023). Target temperature management and therapeutic hypothermia in sever neuroprotection for traumatic brain injury: Clinic value and effect on oxidative stress. Medicine, 102(10), e32921.
Publication 2023
Alcoholic Intoxication, Chronic Brain Contusion Cerebral Hemorrhage Cerebral Infarction Comatose Consciousness Cor Pulmonale Diagnosis Females Head Heart Diseases Hematoma Hematopoietic System Hypothermia, Induced Infection Injuries Kidney Laceration Liver Magnetic Resonance Imaging Males Oximetry Patients Platelet Counts, Blood Resuscitation Systolic Pressure Traumatic Brain Injury Woman X-Ray Computed Tomography

Top products related to «Laceration»

1
Keratograph 5m by Oculus
Sourced in Germany, United States
The Keratograph 5M is a medical device designed for corneal topography and anterior segment analysis. It utilizes advanced imaging technology to capture comprehensive data about the surface of the eye. The Keratograph 5M provides detailed information about the curvature and shape of the cornea, which is essential for various ophthalmic applications and procedures.
2
Dnase 1 by Roche
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DNase I is a lab equipment product that serves as an enzyme used for cleaving DNA molecules. It functions by catalyzing the hydrolytic cleavage of phosphodiester bonds in the DNA backbone, effectively breaking down DNA strands.
3
Sas version 9 by SAS Institute
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SAS version 9.4 is a statistical software package. It provides tools for data management, analysis, and reporting. The software is designed to help users extract insights from data and make informed decisions.
4
Collagenase d by Roche
Sourced in Switzerland, United States, Germany, United Kingdom, France, Japan, Canada, Australia, Ireland
Collagenase D is an enzyme solution used for the dissociation and isolation of cells from various tissues. It is a mixture of proteolytic enzymes that cleave the collagen present in the extracellular matrix, allowing for the release of individual cells.
5
Photo flo by Kodak
Sourced in United States
Photo-Flo is a product designed to facilitate the drying of photographic films and papers. It is a wetting agent that helps to prevent water spots and uneven drying. The core function of Photo-Flo is to improve the drying process of photographic materials.
6
Penicillin streptomycin by Merck Group
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Penicillin/streptomycin is a commonly used antibiotic mixture for cell culture applications. It provides broad-spectrum antimicrobial activity to prevent bacterial contamination in cell culture experiments.
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Sas 9 by SAS Institute
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SAS 9.4 is an integrated software suite for advanced analytics, data management, and business intelligence. It provides a comprehensive platform for data analysis, modeling, and reporting. SAS 9.4 offers a wide range of capabilities, including data manipulation, statistical analysis, predictive modeling, and visual data exploration.
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24 well ultra low binding plate by Corning
Sourced in United States
The 24-well ultra-low-binding plate is a laboratory equipment product designed to minimize sample adsorption. It features a specialized surface treatment that reduces non-specific binding of biomolecules, helping to preserve sample integrity during experiments.
9
Dispase 2 by Roche
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Dispase II is a highly purified protease enzyme that can be used for the dissociation of a variety of cell types, including epithelial, endothelial, and neural cells. It is an effective tool for the isolation and culture of primary cells from tissues.

More about "Laceration"

Laceration, Wound, Tear, Cut, Scrape, Gaping Wound, Accident, Fall, Sharp Object, Infection, Healing, Stitches, Staples, Adhesive Strips, Tendons, Nerves, Keratograph 5M, DNase I, SAS version 9.4, Collagenase D, Photo-Flo, Penicillin/streptomycin, SAS 9.4, 24-well ultra-low-binding plate, Dispase II.
Lacerations are tears or cuts in the skin or other body tissue, ranging from minor scrapes to deep, gaping wounds.
They can be caused by a variety of events, such as accidents, falls, or sharp objects.
Proper treatment is crucial to prevent infection and promote healing, which may include cleaning the wound, applying pressure to stop bleeding, and closing the laceration with stitches, staples, or adhesive strips.
Prompt medical attention is recommended for large or deep lacerations, as well as those involving important structures like tendons or nerves.
With appropriate care, most lacerations heal well and restore normal skin function.
Research in this area focuses on optimizing treatment protocols to ensure the best possible outcomes for patients, utilizing tools like Keratograph 5M, DNase I, and Collagenase D for tissue analysis and SAS version 9.4, Photo-Flo, Penicillin/streptomycin, and 24-well ultra-low-binding plates for data analysis and cell culture experiments.