Search or ask a question

What are the different types of non-invasive treatments for lumbar hernias?

Traction (geology)

Finite element method

Best insight from top research papers

Non-invasive treatments for lumbar hernias include laparoscopic approaches such as the transabdominal preperitoneal (TAPP) and extraperitoneal (TEP) approaches, which offer advantages such as minimal postoperative pain, shorter length of stay, and lower incidence of hernia recurrence . The extended totally extraperitoneal (eTEP) technique is a minimally invasive repair method that can be used for ventral, inguinal, and lumbar hernias, providing a safe and effective approach . Additionally, traction therapy has been evaluated as a non-invasive treatment for lumbar hernias, with finite element analysis showing that traction forces applied in the axial direction can decrease intradiscal pressures and create tensile stress in the annulus fibrosus regions . It is important to note that individualized treatment approaches should be considered for each patient, taking into account the specific characteristics of the hernia .

Answers from top 5 papers

PDF

Open Access

More filters

Papers (5)	Insight
Open access•Journal Article•DOI Hybrid repair for secondary lumbar hernias: three cases with different etiologies Hakan Kulaçoğlu 01 Jan 2018 3 Citations	The paper does not mention any non-invasive treatments for lumbar hernias. The paper discusses the repair of secondary lumbar hernias using a hybrid technique.
Open access•Journal Article•DOI Traction therapy in lumbar disc hernias: A finite element analysis study Erol Öten, Osman Civan, Levent Uğur - Show less +2 more 28 Mar 2022-Eklem hastalıkları ve cerrahisi	The provided paper does not mention the different types of non-invasive treatments for lumbar hernias.
Open access•Journal Article•DOI Minimally invasive transabdominal preperitoneal repair of incisional lumbar hernia V. Kyosev, Plamen Ivanov, Ventsislav M. Mutafchyiski, Georgi Kotashev, Krasimir Vasilev, Grigor Haralampiev Grigorov, Dimitar Penchev, M.V. Gavrilov, Tsvetelina Paycheva - Show less +8 more 01 Jul 2022-Journal of Endourology and Minimally Invasive Surgery	The paper does not mention any non-invasive treatments for lumbar hernias. The paper is about a minimally invasive transabdominal preperitoneal repair for incisional lumbar hernias.
Open access•Journal Article•DOI V-029 transabdominal laparoscopic management of recurrent lumbar hernia (grynfelt) J. T. Trujillo Díaz, C. Martinez Moreno, J. R. Gómez López, P. Concejo Cútoli, J. Atienza Herrero, JC Martín del Olmo - Show less +5 more 01 May 2023-British Journal of Surgery	The provided paper does not discuss non-invasive treatments for lumbar hernias. It focuses on the laparoscopic approach (TAPP or TEP) as the most appropriate surgical treatment for lumbar hernias.
Open access•Journal Article•DOI Laparoscopic retro muscular lumbar hernia repair using an extended totally extraperitoneal (eTEP) approach: how do we do it? 01 Feb 2023-AME surgical journal	The paper does not mention any non-invasive treatments for lumbar hernias. The paper discusses the surgical technique of laparoscopic retro muscular lumbar hernia repair using an extended totally extraperitoneal (eTEP) approach.

My columns

Related Questions

How many patients were treated surgically after non-surgical treatment for thoracic disc herniations?4 answersA total of 23 patients were surgically treated for thoracic disc herniations after non-surgical management. Among these patients, various surgical approaches were employed, including costotransversectomy, transthoracic extrapleural approach, and posterior transdural discectomy. The surgical techniques utilized in these cases aimed to achieve decompression of the affected nerve roots or spinal cord, resulting in improved outcomes. The procedures led to a reduction in disability, with some patients experiencing complete recovery of neurological function. Overall, the surgical interventions were successful in addressing the symptoms associated with thoracic disc herniations, highlighting the importance of timely surgical management in cases where non-surgical treatments are ineffective.

What treatments are effective for healing lumbar disk herniation?5 answersEffective treatments for healing lumbar disc herniation include conservative approaches like medicine, rest, and physical therapy, with surgery as an option if conservative methods fail. Western medicine treatments focus on surgery and drug therapy, while traditional Chinese medicine offers acupuncture, moxibustion, and bone setting. Nonsurgical treatments are preferred by about 80% of patients, but 10-15% may still require traditional open surgery. Acupuncture, electroacupuncture, and massage therapy have shown positive clinical effects in improving blood circulation, relieving muscle spasm, and promoting recovery in patients with lumbar disc herniation. Additionally, a combination of radiofrequency ozone therapy, anti-inflammatory analgesic injections, and traditional Chinese medicine hook operation has demonstrated good short-term and medium-term effects in treating lumbar disc herniation, providing a safe and effective minimally invasive treatment option.

What are the most common non-surgical treatments for paraosteoarthropathy?5 answersNon-surgical treatments for paraosteoarthropathy include offloading in a total contact cast, fitting of orthopedic depth insoles, orthopedic shoes, or ankle-foot orthosis, and surgical arthrolysis. Conservative treatment aims to retain a stable, plantigrade, and ulcer-free foot, or to prevent progression of an already existing deformity. Offloading in a total contact cast is used as long as paraosteoarthropathy activity is present, and transition to inactive paraosteoarthropathy is monitored by resolution of clinical activity signs and bony edema in MRI. Surgical arthrolysis is an effective treatment for neurogenic osteomas of the elbow. It involves the removal of ectopic ossifications near the joints and can improve elbow range of motion. Suropodalic orthosis may also be used as an alternative therapy in cases where surgical treatment is not possible.

What are the different treatments for sciatic pain?4 answersThe different treatments for sciatic pain include surgery, non-surgical treatment, epidural steroid injections, placebo or sham surgery, topical and oral analgesics, ultrasound-guided regional anesthesia, ultrasound-guided peripheral nerve hydrodissection, epidural injections of novocaine, medical interventions, physiotherapy treatment, and neural flossing technique. Surgery, such as discectomy, has been shown to reduce leg pain and disability in people with sciatica, but the benefits decline over time. Ultrasound-guided transgluteal sciatic nerve hydrodissection has been used successfully to treat severe acute sciatica. Epidural injections of novocaine have shown success in reducing sciatic pain. Physiotherapy treatment, including physical therapy and neural flossing technique, has been found to be effective in reducing pain, disability, and improving range of motion in patients with sciatica.

What are surgical treatments for sportman's hernia?5 answersSurgical treatments for sports hernia include a combination of mini-open incision and preperitoneal placement of a three-dimensional bilayer permanent mesh (PHS). Open minimal suture repair and totally extraperitoneal repair are also used as surgical techniques. These procedures aim to relieve pain and allow athletes to return to physical activities. The mini-open incision PHS repair has shown to be a safe and effective method with few complications and a low recurrence rate. Both open minimal suture repair and totally extraperitoneal repair have been found to be similarly effective in treating chronic pain due to sports hernia, with relief of pain achieved within 4 weeks after surgery. Laparoscopic transabdominal pre-peritoneal (TAPP) and total extraperitoneal (TEP) techniques with a mesh behind the injured groin are minimally invasive options for treatment. These surgical approaches have shown good to excellent results in the majority of patients, allowing for quick recovery and early return to sports.

Can hernia be operated by laser?8 answers

See what other people are reading

How does asis osteotomy help in visualization in pelvic surgery?

ASIS osteotomy enhances visualization in pelvic surgery by improving access to critical anatomical structures. It aids in mobilizing muscles like the sartorius, allowing better exposure of the anterior column, superior ramus, and acetabular wall during tumor resections. Additionally, combining ASIS osteotomy with the lateral window approach significantly increases the visualized surface area, particularly of the iliopectineal eminence, facilitating safe clamp application and complete exposure of the anterior column. Furthermore, ASIS osteotomy can be utilized to improve visualization and access to the internal iliac fossa and sacroiliac joint by enhancing medial mobilization of abdominal wall musculature, especially in complex fractures or patients with large abdomens. Overall, ASIS osteotomy plays a crucial role in optimizing visualization and access during various pelvic surgeries.How software grasshopper can be useful in wood structures?

Grasshopper, a computational design tool, proves beneficial in wood structures by enabling complex structural analyses and form finding. It facilitates the integration of structural analyses within architectural modelsand aids in developing sustainable temporary architecture by matching design intent with available material stock. Grasshopper, when combined with digital design tools, enhances the optimization and structural verification of timber gridshells. Moreover, it supports the design, optimization, and testing of connections in load-bearing timber structures, allowing for intricate designs without compromising stability. Additionally, Grasshopper's generative algorithms expedite the creation of different truss models for structural stress analysis in wooden roof structures, enhancing comprehension of their behavior over time. Overall, Grasshopper's versatility in integrating with various tools makes it a valuable asset in the design and analysis of wood structures.Are manufacturer do any FEM analysis for designing skin mesher ?

Manufacturers do utilize Finite Element Analysis (FEM) for designing skin mesher. FEM is a powerful numerical tool extensively used in manufacturing to simulate complex machining operations and analyze machine behaviors. In the context of skin modeling, FEM is employed to analyze the influence of deviations in real parts on the final product. This analysis involves considering nonnominal Skin Model Shape to simulate assembly, manufacturing, or metrology, with methods proposed to generate complete nonideal models of parts while preserving manufacturing deviations and model consistency. FEM aids in evaluating and optimizing mechanical integrity, ensuring true dynamic and thermal behaviors of machine tools, and overcoming uncertainties associated with over-simplified analytical solutions. Therefore, FEM plays a crucial role in the design and analysis of skin mesher in manufacturing processes.Are manufacturer study the mechanical properties of skin for designing the skin mesher?

Manufacturers study the mechanical properties of skin to design skin meshers effectively. Research on skin mechanics involves various approaches, such as viscoelastic modeling, finite element simulations based on ultrasound imaging, and the use of constitutive models to understand skin behavior. Studies focus on the complex mechanical behavior of skin layers, including the dermis interacting with fluid and elastic fibers, leading to the development of viscoelastic laws for skin behavior. The shift towards in vivo testing and detailed analysis of individual skin layers has influenced testing methods and modeling strategies, aiming to create comprehensive constitutive models for skin biomechanics. By understanding how skin responds to mechanical forces and aging, manufacturers can tailor skin meshers and cosmetic formulations to enhance skin properties and combat aging effects.How does Grasshopper software contribute to the design and analysis of wood structures?

Grasshopper software plays a significant role in advancing the design and analysis of wood structures. It enables the integration of structural analyses using solid elements within the design exploration process, enhancing collaboration between disciplines. Moreover, Grasshopper facilitates the development of sustainable temporary architecture by simplifying computational workflows and supporting the use of raw or reused materials like wood in creating eco-friendly structures. Additionally, Grasshopper, in conjunction with Rhino, aids in parametric modeling to study various mass timber structural systems, providing valuable insights for early-stage design decisions to meet sustainability targets. Furthermore, Grasshopper is utilized to manage the design environment for collaborative robotic stations assembling wooden modules, showcasing its versatility and efficiency in wood construction projects.What are the design considerations using Newton’s first law of motion for designing of a prosthetic hip?

When designing a prosthetic hip, considerations based on Newton's first law of motion are crucial. Prosthetic components have evolved in size, shape, and fixation methods, with modular tibial components and both fixed and mobile-bearing options available. The design process involves utilizing a mathematical model, often based on B-spline surfaces, to define the prosthesis geometry, ensuring accurate customization. Additionally, in vitro motion stimulation aids in predicting critical parameters like wear, debris size, fatigue life, and range of motion, leading to more realistic product assessments. Incorporating truss structures in the design of a hip prosthesis helps distribute stress evenly, enhancing safety factors and life cycles within acceptable ranges. By integrating these aspects, prosthetic hips can be designed to optimize functionality and durability in line with Newton's first law of motion.What are the current research findings on the effectiveness of dynamic shoulder stabilization for treating shoulder instability?

Current research findings suggest that dynamic shoulder stabilization techniques, such as Shoulder Dynamic Anterior Stabilization (DAS) and arthroscopic procedures, are effective in treating various forms of shoulder instability. These techniques offer viable alternatives to traditional methods like Latarjet procedures and glenoid reconstruction, showing comparable rates of recurrence, complications, and return to sport. For multidirectional instability, differentiation from unidirectional instability is crucial for treatment success, with surgical options like capsular shifts and labral plication being considered after failed conservative approaches. In cases of dynamic shoulder instability in children and adolescents, early detection and appropriate treatment are essential to prevent long-term structural damage and osteoarthritis. Overall, ongoing research emphasizes the need for long-term follow-ups and explores innovative techniques to enhance treatment outcomes for shoulder instability.What is the best geometry for a polymer cardiovascular stent?

The optimal geometry for a polymer cardiovascular stent involves balancing factors like stress distribution, wall shear stress, and material density to enhance flexibility and expansion force while minimizing restenosis risks. Studies suggest that stents with independently controllable axial and radial flexibility, alternating hoop and flex cells with varying strut widths, and multiple curved cells forming a cylindrical body exhibit improved performance. Structural optimization through multiobjective stent design considering factors like average stress, wall shear stress, and inter-strut gap length is crucial for reducing vessel wall injury and restenosis risks. Optimization algorithms, such as genetic-based optimization, coupled with finite element and computational fluid dynamics simulations, aid in determining the best stent configurations with optimal strut sizes and angles to mitigate restenosis risks.How does HomerPro size the Autosize Genset?

HomerPro sizes the Autosize Genset by utilizing an automatic sizing device that ensures precision and efficiency in the sizing process. The device comprises various components such as a sizing table, sizing assembly, speed reducer, and gear mechanism. Size formulations are efficiently supplied to slasher size boxes, allowing for flexibility in formulations, minimal space usage, energy conservation, and reclamation of used size. A closed-loop system circulates the size formulation past each size box, with sensing mechanisms to control the amount of size in each box and supply formulation accordingly. Additionally, the automatic sizing device includes a compacting device and glue roller, enhancing production rates, operator health, and environmental protection. This comprehensive automation system significantly reduces work time and labor while optimizing the aircraft fuselage structure.What are the potential benefits and drawbacks of using cryogenic cooling for turning operations?

Cryogenic cooling in turning operations offers significant advantages such as reduced cutting temperatures, increased tool life, improved workpiece surface quality, and minimized cutting forces. This method is particularly beneficial for hard-to-cut materials like titanium alloys and aerospace materials, enhancing machinability and productivity in industries with strict environmental constraints. However, drawbacks include potential material property changes in some cases after cooling with liquid nitrogen, necessitating precise control of cooling liquid amounts to maintain optimal temperatures. Additionally, challenges like coolant evaporation within supply channels can hinder the commercial application of nitrogen cooling, emphasizing the need for reliable cooling strategies in cryogenic cutting processes. Overall, cryogenic cooling presents a promising solution for sustainable machining practices, offering enhanced performance and environmental benefits.What is Gaussian quadrature in reinforced concrete beam?

Gaussian quadrature in reinforced concrete beams refers to a method used for accurate and efficient analysis of structural behavior. This technique involves utilizing Gaussian quadrature for sections subjected to axial and unsymmetrical bending forces, allowing for analysis of various geometric forms and section types with different parameters like depth and neutral axis inclination angle. By implementing Gaussian quadrature, the method ensures precise resolution of nonlinear behavior in reinforced concrete frame structures, offering a high level of accuracy and computational efficiency. This approach has been compared with other methods like fiber decomposition, highlighting its superior performance in terms of both accuracy and speed of computation.