Lean Manufacturing | Literature Review

topple Manufacturing Literature ReviewSince the 1980s, numerous businesses in various sectors of industry have continually been introducing programs intended to improve both harvestiveness and quality. Several authors have posited rock manufacturing or move drudgery as the best possible harvesting arrangement and one that coffin nail be utilise in either industry and any process (Bonavia and Marin, 2006 and Lee-Mortimer, 2006). Doolen and drudge (2005) mentioned that distinguishable researchers have explored the portability of bleed practices both within and amongst diametrical manufacturing sectors. In accordance, a variety of surveys conducted in diverse types of industry (Soriano-Meier and Forrester, 2002, Bonavia and Marin, 2006, Doolen and Hacker, 2005, Snchez and Prez, 2001 and Taj, 2008) proved that slender is widely made in a variety of industrial sectors.However, in that location be two jobatic issues regarding skimpy manufacturing have been addressed i n several studies. First, Shah and defend (2007) claimed that any discussion of lean production points to an absence of earthy translation of the concept. Likewise, Pettersen (2009) alleged that in that respect is no agreed upon definition of lean that could be tack in the lit. Papadopoulou and -zbayrak (2005) raised that there is no consensus in different researchers perceptions to the concept of lean which leads to conflicting results in identifying and classifying its practices and techniques.Second, there is conflict in using bourns such as elements, principles, constructs, techniques and practices. Papadopoulou and -zbayrak (2005) mentioned that some of the elements of lean be in reality referring to the goals and objectives rather than techniques or tools (e.g. elimination of waste, lead time reduction) and, in growth, a number of other best manufacturing practices (such as agile manufacturing) were used in literature as lean practices. More over, Shah and Ward (20 07) underscored that identical items are used to operationalize vastly different concepts and different items are used to operationalize the same construct. Thus, Shah and Ward (2007) argued that a gravid source of confusion and inconsistency associated with lean is the more substantive disagreement about what comprises lean production and how it ass be measured operationally.Statement of the problemThe above mentioned issues revealed three confusions surrounding the lean concept in literature, which are (1) the lack of a consistent definition of lean, (2) the disagreement about the elements that comprise lean manufacturing and (3) the lack of a measurement tool for assessing changes towards lean implementation.With the aim to clarify and resolve these confusions, this chapter has three main objectives (1) to propose a conceptual definition of the term lean manufacturing that captures all its main facets, (2) to support a frame manoeuvre that identifies its major elements and pra ctices, and (3) to develop an operationalized model to assess changes towards lean manufacturing implementation. To achieve these objectives, an in-depth literature review is conducted regarding the guinea pig of lean manufacturing. At early, the concept of Lean and its main principles are introduced. Next, the elements of lean manufacturing and the practices for lean implementation will be investigated. Finally, different indicators that measure the progress achieved towards lean are explored.The concept of LeanLean was associated with the practice of deciphering the value added activities from those that are waste in an organization and its supply chain (Comm and Mathaisel, 2005). Motwani (2003) declared that companies need to focusing on individually product and its value stream in order to distinguish between wasted activities and that actually create value. Moreover, Papadopoulou and -zbayrak (2005) stated that leanness was introduced as an approach to manufacturing that w as aiming at the elimination of waste era sieveing the need for continuous avail.However, lean manufacturing is much more than a technique, it is, in addition, a way of thinking (Taj, 2008). The issue of lean thinking was widely discussed in different researches. Comm and Mathaisel (2005) believed that lean thinking removes the traditional way people think about roles and responsibilities through rest focused on the node and the core competencies that the node values from an organization. Therefore, Bhasin and Burcher (2006) claimed that for a successful implementation, numerous cultural changes are compulsory for embracing empowerment and disseminating the lean principles through-out the value chain. Similarly, Taj (2008) confirmed that lean as a way of thinking creates a culture in which everyone in the organization continuously improve operations. In accordance, Comm and Mathaisel (2000) introduced leanness as a philosophy that intended to probatoryly expurgate cost and regular recurrence time end-to-end the entire value chain while continuing to improve product performance.Hence, lean should be described from two points of view the philosophical perspective and the practical perspective (Shah and Ward, 2007). From the philosophical perspective, lean is viewed as an overall organizational philosophy that should affect the people way of thinking and behaving (Papadopoulou and -zbayrak, 2005 and Bhasin and Burcher, 2006). This philosophy drives the guiding principles and the overarching goals of lean (Shah and Ward, 2007). On the other hand, the practical perspective uplift lean as a decide of trouble practices, tools and techniques (Shah and Ward, 2007) that are used to apply the philosophy and to achieve the goals (Bhasin and Burcher, 2006).This two-perspective view of lean is supported by the definition of lean as a socio-technical system. such(prenominal) system combines both technical system i.e. technology and social system i.e. people an d organizational structure (Bhasin and Burcher, 2006). In the same context, Shah and Ward (2007) asserted that to pursue lean production, firms have to effectively manage their social and technical systems simultaneously. Moreover, Cua et al. (2001) proved that joint optimization of both socially- and technically-oriented policies or practices is necessary for achieving good results.Regarding its implementation, Panizzolo (1998) demonstrated that the wide range of lean practices are related to interventions in the manufacturing welkin, actions taken in other areas of the firm (design, HR, schema, etc.) and relationships with both suppliers and clients. Likewise, Shah and Ward (2003) stated that lean should be seen as a multi-dimensional approach that encompasses a wide variety of management practices. This conceptualization of lean as multidimensional strategy is supported by a wide range of researchers (Doolen and Hacker, 2005, Karlsson and hlstrm, 1996, Shah and Ward, 2007 and P apadopoulou and -zbayrak, 2005).However, it is puff up accepted among researchers that lean should be implemented as an integrated system (Shah and Ward, 2007, Bhasin and Burcher, 2006, Karlsson and hlstrm, 1996 and Papadopoulou and -zbayrak, 2005). Shah and Ward (2007) suggested that a well-developed lean strategy implementation will require firms to exert considerable motility along several dimensions simultaneously. Bonavia and Marin (2006) concluded that there are only a couple of(prenominal) relationships between the degree of use of lean production practices individually and operational performance (in terms of productivity, quality, lead time and inventory). In the same vein, Shah and Ward (2003) provide unambiguous evidence that the synergistic effects of all lean practices are associated with better manufacturing performance. some other feature of lean manufacturing that was empha coatd in literature is its time-frame of implementation. Bhasin and Burcher (2006) and Dool en and Hacker (2005) believed that lean is a long-term multidimensional organizational strategy. Papadopoulou and -zbayrak (2005) substantiate that transformation to lean requires a lot of effort, time and participation of all organization levels in addition to make changes in company culture and organizational structure. Thus, lean enterprises should continuously find ways to eliminate consumption of resources in their struggle to sky value to their customers. In correspondence, the implementation of the lean program in the case study discussed in (Lee-Mortimer, 2006) proved that lean is not just a project, it is a long-term continuous journey which is implemented as a sequence of stages or projects.In conclusion, lean manufacturing embraces different features that should be taken into consideration when delineate this concept. Lean should be viewed as a philosophy, affecting company culture, rather than a set of tools/techniques. This, in turn, reveals the importance of managin g social system as well as technical system simultaneously. Moreover, lean implementation scope is not confined to the manufacturing function of a company, rather it relates to all functions ranging from product development, procurement and manufacturing over to distri notwithstandingion. Since lean companies seek to deliver value to their customers, this value should be pre specify and delivered, while waste, which customers are not willing to pay for, should continuously be eliminated. All the aforesaid(prenominal) features of lean manufacturing can be captured in the following proposed conceptual definition.Lean manufacturing is a philosophy and a long-term strategy that is applied through a socio-technical system integrating all functions within the organization with the aim of continuous waste elimination while delivering outcomes that meet continuously predefined customer value.Lean principlesLean philosophy is mainly based on the principle of eliminating waste. Waste is anyth ing other than the minimum amount of equipment, materials, parts, and working time that are essential to add value (Taj, 2008, Bonavia and Marin, 2006 and Karlsson and hlstrm, 1996). Snchez and Prez (2001) cited that the main goal of lean is to eliminate all activities that do not add value to the product. Value should be specified as it is perceived by customers (Andersson et al., 2006 and Dahlgaard and Dahlgaard-Park, 2006). If the task does not add value from the customers point of view, it should be modified or eliminated from the process (Andersson et al., 2006). It is believed that by minimizing waste and zero-value added activities, companies can reduce production costs and the overall production system will be more efficient (Comm and Mathaisel, 2005 and Karlsson and hlstrm, 1996).Since inventory is considered one of the critical sources of waste (Snchez and Prez, 2001 and Karlsson and hlstrm, 1996), Dahlgaard and Dahlgaard-Park (2006) declared that the traditional way of pr oducing in batches is inefficient as it requires goods to wait in inventories before the next production step is started up. Thus, Motwani (2003) mentioned that the value must flow to the customer without interruptions. Andersson et al. (2006) confirmed that focus should be on organizing a continuous flow through the production or supply chain rather than moving commodities in large batches.Closely related to the continuous flow is the principle of just-in-time (JIT), since the ultimate goal that every process should be provided with only one part at a time, exactly when that part is needed (Karlsson and hlstrm, 1996). Moreover, if continuous flow is not possible (Lummus et al., 2006), the way of scheduling the flow of material should be pull sort of of push (Motwani, 2003 and Dahlgaard and Dahlgaard-Park, 2006). This means that customer demand should pull finished products through the system with the aim of not carrying out any work unless the result of it is required downstream ( Andersson et al., 2006).It is obvious that to succeed in the implementation of any modern system, everyone from top management to any lower level should make sincere efforts, and set their goals jointly through active participation and understanding (Ahmed et al., 2004). According to (McKone et al., 1999), employees can contribute significantly to the organization when they are allowed to participate in decisions that impact their area of responsibility. As a result, involvement from all employees allows companies to better use of its available resources (McKone et al., 1999). This principle reflects the conceptualization of lean manufacturing as a socio-technical system, since it highlights the importance of managing social system as well as technical system.Since lean is viewed as a long-term strategy, lean philosophy emphasizes continuous melioration. Several researchers (Karlsson and hlstrm, 1996, Comm and Mathaisel, 2005 and Snchez and Prez, 2001) affirmed that one of the mos t fundamental principles of lean is the search for continuous improvement in products and processes. Lummus et al. (2006) mentioned that processes should be managed towards perfection to continuously reduce the time needed to make the customer. Likewise, Andersson et al. (2006) underscored that the elimination of non-value-adding elements (waste) is a process of continuous improvement. In this context, Snchez and Prez (2001) highlighted the importance of employees involvement and top management support to create and train improvement teams that lead the organization to move toward zero deserts.Based on the analysis of lean previous studies, it is concluded that there are five key principles / overarching goals which can be considered the bases for the lean philosophy. These principles are (1) waste elimination, (2) customer value identification, (3) continuous production flow, (4) employees involvement and (5) continuous improvement. Furthermore, the aforesaid lean principles conf irm some issues in the proposed conceptual definition. The unambiguous believe that elimination of waste is the fundamental goal is affirmed since lean is regularly defined as manufacturing without waste. Likewise, identifying value as perceived by customer is asserted in the proposed definition. Moreover, seeking continuous improvement as a principle of lean philosophy reflects the long-term nature of lean implementation. Thus, the proposed definition vehemencees the aim of continuous waste elimination and highlighted the need to continuously predefine customer value. Also, the importance of employees involvement emphasizes the social phase of the lean system as a socio-technical system. Finally, holding in mind these principles / goals underscores the view of lean as a philosophy that affects the people way of thinking.Lean implementation framework earlier studies concerning lean manufacturing revealed a number of manufacturing practices that are vernacularly associated with lea n implementation. The initial step towards developing a framework for lean implementation is to capture different practices and combine them into inter-related groups in accordance to the multi-dimensional nature of lean manufacturing. The term practices in this context refers to the predominant methodologies that may overwhelm many techniques and tools.Shah and Ward (2003) identified and through empirical observation validated combining lean practices into four specific lean passels namely Total Quality Management (TQM), Just In Time (JIT), Total fur-bearing Maintenance (TPM) and Human Resources Management (HRM). Bonavia and Marin (2006) found enough agreement in literature to identify the first three bundles TQM, JIT and TPM, while Cua et al. (2001) are of the opinion that mankind and strategic-oriented practices are common practices that support all other three bundles.Although there is general agreement within operations management literature that JIT, TPM, TQM and HRM are c onceptually, theoretically, and through empirical observation well established (Shah and Ward, 2003), there is no unanimous classification of the lean manufacturing practices that make up severally of the four bundles (Bonavia and Marin, 2006). Therefore, in an attempt to provide a framework for lean implementation comprises the actual practices that represent distributively of the four mentioned bundles, the basic theme of these bundles are identified. Then, different lean practices are combined into each of these bundles based on reviewing different research papers regarding lean implementation practices, in addition to articles that were focused mainly on one of these bundles.TQM bundle need of quality is a major source of waste, since the defective parts and products that need to be reworked or scrapped do not add any value to the customer and should be eliminated in order to attain high productivity (Karlsson and hlstrm, 1996). Sderquist and Motwani (1999) underscored that qu ality should be a top management issue and continuous improvement efforts together with the zero error objective should be company-wide and extended over company limits in production duress.Cua et al. (2001) defined total quality management (TQM) as a manufacturing program aimed at continuously improving and sustaining quality products and processes by capitalizing on the involvement of management, workforce, suppliers, and customers, in order to meet or exceed customer expectations. Sderquist and Motwani (1999) emphasized that TQM approach is the philosophy that should underpin the quality project in a lean company.The practices combined to form the TQM bundle include product quality ascendence, visual management (Cua et al., 2001, McKone et al., 1999 and Sderquist and Motwani, 1999), process management (Shah and Ward, 2003, Cua et al., 2001 and McKone et al., 1999), product design and development (Cua et al., 2001 and Sderquist and Motwani, 1999), standardization (Sderquist and Motwani, 1999), suppliers quality management and customers involvement (Cua et al., 2001 and McKone et al., 1999).JIT bundleJust-in-time philosophy means to deliver the expert part in the necessary quantity and at the right time (Canel et al., 2000, Snchez and Prez, 2001 and Karlsson and hlstrm, 1996). Ahmed et al. (2004) defined JIT as a philosophy and system concept of doing, maintaining and producing what is value adding or what is just needed, be it raw materials, components, parts, WIP, employees, or finished products. Cua et al. (2001) asserted that the primary goal of JIT, as a manufacturing program, is continuously reducing and ultimately eliminating all forms of waste through JIT production and involvement of the work force.JIT basic techniques include set-up time and lot size reduction, pull production systems (Shah and Ward, 2003, Cua et al., 2001 and McKone et al., 1999), equipment layout and cellular manufacturing (Shah and Ward, 2003 and Cua et al., 2001), production leveling and scheduling and JIT lurch by suppliers (Cua et al., 2001 and McKone et al., 1999).TPM bundleIt has been accepted beyond any doubt that forethought, as a support function in businesses, plays an great role in backing up many emerging business and operation strategies like lean manufacturing (Ahuja and Khamba, 2008b). Without having a productive maintenance system, lean production, just-in-time (JIT) or total quality management (TQM) environment cannot be attained (Ahmed et al., 2004). TPM is a proven and successful procedure for introducing maintenance considerations into organizational activities (Eti et al., 2004). Ahuja and Khamba (2008b) stated that TPM is a methodology originating from Japan to support its lean manufacturing system, since dependable and effective equipment are essential pre-requisite for implementing lean manufacturing initiatives in the organizations.Cua et al. (2001) and Shah and Ward (2003) defined TPM as a manufacturing program designed primar ily to maximize equipment effectiveness throughout its entire life through the participation and motivation of the entire work force for performing planned predictive and preventive maintenance of the equipment and using maintenance optimization techniques.TPM, according to McKone et al. (1999), provides a comprehensive company-wide approach to maintenance management which is usually divided into short-term and long-term elements. In the short-term, TPM basic practices include industrial housekeeping, autonomous maintenance (Cua et al., 2001, Eti et al., 2004 and McKone et al., 1999), and planned preventive and predictive maintenance (Shah and Ward, 2003, Cua et al., 2001, Eti et al., 2004 and McKone et al., 1999). In the long-term, TPM efforts focus on new equipment and technology acquisition (Shah and Ward, 2003, Cua et al., 2001 and McKone et al., 1999).HRM bundleHuman resources have a critical role in carrying out the continuous improvement plans which are the basis for success in lean implementation (Panizzolo, 1998). Eti et al. (2004) claimed that the degree of employees eagerness to embrace change determines the rate of progress towards that goal. Moreover, McKone et al. (1999) declared that employees are the great sources of reading for companies to improve their performance.Shah and Ward (2003) affirmed that the HRM bundle has significant theoretical and empirical support. The most commonly cited HRM practices are employees involvement (Shah and Ward, 2003, Cua et al., 2001 and McKone et al., 1999), multi-skilled workforce, multi-functional work teams (Shah and Ward, 2003), education and planning (Shah and Ward, 2003, Cua et al., 2001 and McKone et al., 1999), performance-based compensation system (McKone et al., 1999) and information and feedback (Cua et al., 2001 and McKone et al., 1999).Lean operationalized modelTraditionally, managers have relied heavily on accounting metrics to determine efficiency, such metrics reflect the net state achieved as the result of a long chain of decisions (Taj, 2008), while lean should be seen as a direction rather than a state to be reached after a certain time (Karlsson and hlstrm, 1996). Therefore, managing a lean factory requires key information to assess the changes taking place in the effort to introduce lean (Snchez and Prez, 2001 and Karlsson and hlstrm, 1996).Consequently, in order to develop an operationalized model for lean manufacturing, the aforementioned bundles and practices will be discussed with focus on identifying the indicators that can be used in assessing changes towards lean implementation. It is important here to note that the focus lies on the changes in these indicators, not on their actual values. So, the desired direction of each indicator, if moving in a lean direction, will be also specified. meter of TQM basic practicesSince the ultimate goal of TQM practices is to achieve zero defects, Motwani (2001) mentioned that the office of defects (TQM1) and the fortu ne of products needing rework (TQM2) are among the common quality outcome indicators employed by several researchers.Product quality can be authorizationled through the involvement of production line proletarians for identification and adjustment of defective parts and their authority to stop lines when defective parts are found in order to avoid any defective parts moving to the next production stage (Karlsson and hlstrm, 1996). Thus, Snchez and Prez (2001) used the percentage of defective parts adjusted by production line workers (TQM3) as an indicator of transferring the responsibility for products quality from the quality control department to the line workers. In addition, Karlsson and hlstrm (1996) alleged that the number of quality control personnel (TQM4) and the size of repair area (TQM5) can be reduced as a consequence. Furthermore, Karlsson and hlstrm (1996) declared the use of autonomous defect control (poka yoke) as inexpensive means to help conducting inspection of a ll units with the ultimate goal of zero defects. Therefore, the percentage of inspection carried out by autonomous defect control (TQM6) is a common measure (Snchez and Prez, 2001 and Karlsson and hlstrm, 1996).Visible graphs and panels are used to gather performance data, to plot different measurements and to identify specific problems and causes of decelerate in order to take efforts for resolution (Lee-Mortimer, 2006 and Bonavia and Marin, 2006). For this, Bonavia and Marin (2006) measured the percentage of work areas where visible graphs panels are used (TQM7) as an indicator for visual management.In addition to controlling products quality, process management is essential to obtain fault free parts and products from the very beginning (Karlsson and hlstrm, 1996). Cua et al. (2001) emphasized the use of Statistical Process mold (SPC) techniques in monitoring processes to ensure that each process will supply defect free units to resultant process. Shah and Ward (2007) and Bon avia and Marin (2006) measured the percentage of equipment / processes under SPC (TQM8) as an indicator to represent the expansion of using SPC.Panizzolo (1998) emphasized the attention that has been devoted to the relationships between product development and manufacturing activities. Sderquist and Motwani (1999) claimed that design for manufacturing through integrating product and process engineering is one of the core features of quality management within the lean production framework. Thus, the percentage of parts designed by cross-functional teams (TQM9) can be used as a measure for this practice. In addition, Snchez and Prez (2001) mentioned the use of common parts (TQM10) to manufacture different products as a technique used to reduce inventory and lead times as well. Moreover, participation of suppliers in the design stage (TQM11) facilitates manufacturing of components they have designed.Standardization is an essential principle of lean manufacturing that involves establish ing the sequence of tasks to be done by each worker and how those tasks are done (Olivella et al, 2008), measuring and comparing the cycle time against the required takt time (Motwani, 2003) and specifying procedures, tools and materials (Bonavia and Marin, 2006). The percentage of procedures which are written recorded (TQM12) is the measure used by Snchez and Prez (2001) and Bonavia and Marin (2006) to quantify the extent to which the company standardize its operations.Several researches emphasized the significant role that suppliers can play when involved in quality improvement programs (Panizzolo, 1998, Shah and Ward, 2007, Papadopoulou and -zbayrak, 2005 and Motwani, 2003). In order to enhance suppliers involvement, Snchez and Prez (2001) stressed the importance of information exchange with suppliers through conducting visits by engineers and technicians from both sides and interchanging documents. This will help to reduce inefficiencies and eliminate activities that are not val ue added (Snchez and Prez, 2001). This practice is measured by two indicators the frequence of visits between companys and suppliers technicians (TQM13) and the number of suggestions made to suppliers (TQM14) (Snchez and Prez, 2001).With the focus on customers and their needs, Motwani (2001) declared that customer service programs should include quick responsiveness to complaints and maintaining a corporate goal to reduce the quantity of complaints (TQM15). Furthermore, Panizzolo (1998) affirmed that customer-driven enterprises dedicated much attention to organize customer participation in design, manufacturing and delivery activities. Thus, Bhasin and Burcher (2006) considered the percentage of projects in which the customer was involved (TQM16) as a signal of the systematically and continuously focus on the customer. In conclusion, table 3.1 summarizes the indicators developed to assess changes towards implementing the previously discussed TQM practices.Measurement of JIT basic p racticesSeveral authors (Snchez and Prez, 2001, Karlsson and hlstrm, 1996, Lee-Mortimer, 2006 and Salaheldin, 2005) have proposed the value of WIP (JIT1) and the lead time to customer order (JIT2) as common indicators of JIT implementation. Moreover, Motwani (2003) and Bhasin (2008) affirmed that total product cycle time (total time that material spends in the production system) (JIT3) is the best measure for tracking lean progress.Reducing set-up times simultaneously with reducing lot sizes is a technique used to reduce inventories and also it contributes to the reduction of lead times (Snchez and Prez, 2001) and increasing flexibility (Karlsson and hlstrm, 1996). The progress in this practice can be directly measured by two indicators set-up times (JIT4) and production and delivery lot sizes (JIT5).Firms use pull production systems to facilitate JIT production with the aim to maturate the kind of units needed, at the time needed, and in the quantities needed (Shah and Ward, 2007) . Bonavia and Marin (2006), Cua et al. (2001), McKone et al. (1999) and Shah and Ward (2007) highlighted the use of kanban squares, containers or signals as a means to pull material from an upstream broadcast and manage product flow. Karlsson and hlstrm (1996) argued that as the work with implementing pull system proceeded, the number of manufacturing stages producing against customer orders should extend. Accordingly, they considered the percentage of stages in the material flow that uses pull (JIT6) as a determinant of the change towards this practice.Cua et al. (2001) and McKone et al. (1999) emphasized the importance of equipment layout to facilitate low inventories (JIT1) and fast throughput (i.e. shorten lead time (JIT3)). Grouping machines together in a cell-based layout (Cellular manufacturing) is one technique that is developed to facilitate line balancing with the ultimate goal of creating single piece flow (Lee-Mortimer, 2006 and Motwani, 2003). Implementing cellular man ufacturing technique helps to eliminate the frequency (JIT7) and physical distances (JIT8) of parts transportation (Karlsson and hlstrm, 1996) and to reduce the investments (JIT9) in handling systems (Snchez and Prez, 2001).Panizzolo (1998) considered production leveling as a practice, in addition to small carve up and pull control that is adopted to synchronize production and market demand. Thus, this practice contributes in achieving reductions in the value of WIP (JIT1) and the lead times to customer order (JIT2). Moreover, the synchroneity between production output and market demand helps company to minimize finished goods inventory (JIT10).Suppliers are required to deliver the right quantity, at the right time, and at the right quality (Shah and Ward, 2007) in order to facilitate JIT production. Many researches agreed on the importance of reducing the number of key suppliers (JIT11) for the main components and benignant with them in long term contracts (JIT12) (Snchez and Pr ez, 2001, McKone et al., 1999, Shah and Ward, 2007, Doolen and Hacker, 2005, Bhasin and Burcher, 2006 and Papadopoulou and -zbayrak, 2005). Furthermore, the case study of (Comm and Mathaisel, 2005) highlighted how maintaining good relationships with suppliers helped to keep minimum raw material inventories (JIT13).In general, McKone et al. (1999) highlighted the importance of on-time delivery (JIT14) to customers as an indicator of the JIT concept implementation. Likewise, Bhasin (2008) mentioned measuring on-time delivery as one of the customer / market indicators of lean implementation. In the same vein, Motwani (2001) recommended monitoring the amount of lateness in orders delivery as a tool in measuring the spread of delivery time. Furthermore, since the change towards JIT production and delivery is made gradually (Snchez and Prez, 2001), the proportion of products transferred just-in-time between production stages (JIT15) and that delivered just-in-time by suppliers (JIT16) sho uld be measured. Table 3.2 summarizes the indicators developed to assess changes towards implementing the previously discussed JIT practices.Measurement of TPM basic practicesIt is agreed upon in literature that overall equipment effectiveness OEE ( accommodative Immune Response Case StudyAdaptive Immune Response Case StudyAdaptive ResponseAbstractAdaptive exemption is an important part of the immune system. It is the third line of defense in the human body, which includes highly specialized systemic cells and processes that eliminate or prevent pathogenic growth. erstwhile external obstructions have been compromised and fervidness (innate immunity) has been activated, the adaptive response is called into action (Huether McCance, 2012). It develops slower than the innate inflammatory response and is specificunlike inflammation, which is non-specificand has immunological memory that recognizes each pathogen by a signature antibody (Huether McCance, 2012). In addition, the activa ted B cells and T cells can develop to memory cells that respond rapidly and efficiently to a subsequent encounter with a pathogen. Adaptive immunity response primary obligation is destroying infectious agents that are resistant to inflammation and provides long-term protection against future motion-picture show to the same agents (Huether McCance, 2012).Adaptive ResponseThe adaptive response consists of an antibody response and cell-medicated response, which are carried out by different lymphocytes cells, B cells and T cells respectively. B cells (B indicates bone marrow) are the major cells involved in the creation of antibodies that circulate in blood plasma and lymph, where they have capacity bind to almost any foreign antigen found in the environment (Huether McCance, 2012). Binding of antibody inactivates virus and microbial toxins by blocking their ability to bind to receptors on host cells. Antibodies, also known as immunoglobulin, are large Y shaped proteins, which are typically composed of two large heavy pair chains and two small light chains (Huether McCance, 2012). There are five types of immunoglobulin IgA, IgD, IgE, IgG, and IgM, which are characterized by differences in structure and function, each has evolved to handle particular antigens (Huether McCance, 2012). The antibody responses are also called humoral immunity. Another adaptive response is known as cell-medicated immunity responses that activate T cells to combat against a foreign antigen presented on the surface of a host cell. Also, T cells produce signal molecules that trigger macrophages, natural killers (NK), antigen specific cytotoxic T-lymphocytes, and release of various cytokines in responses to an antigen (Huether McCance, 2012). The purpose of this paper is to explain pathophysiology of disorders presented in the scenarios, including associated registrations, and adaptive responses to the alteration as well as construct a mind map for the selected disorder. Furthermor e, consider the epidemiology, pathophysiology, risks factors, clinical presentation, and diagnosis of the disorder and any adaptive responses to alteration.Scenario 1The first scenario the endurings mother mentioned that Jennifer is usually healthy and has no significant medical history. However, physical examination revealed clinical manifestations, which include fever tympanic membranes fairly redden on the periphery, throat erythematous with 4+ tonsils and diffuse exudate anterior cervical nodes palpable and tender to touch. The child indicated throat hurts and painful to swallow. spanking signs reveal increased temperature, pulse and respiratory rate that suggested tonsillitis disorder.PathophysiologyTonsillitis is an inflammatory condition of the tonsils due to bacteria, allergies or respiratory problems (Tonsillitis, 2014). When inflamed, tonsils become swollen and red with a achromatic or yellowish coating on its surface. Tonsillitis usually begins with a sudden sore thr oat and painful swallowing. Tonsillitis causes tonsils and throat tissues to swell obstructing air from passing in and out of the respiratory system (Huether McCance, 2012). The tonsils infection is common in children under age six and teenagers but rare in adults. The adaptive response activates the different B cells and T cells lymphocytes to eliminate the alteration, so body can return back to hemostasis.Scenario 2Pathophysiology sticker contact dermatitis is a common nonimmunologically mediated inflammation arising from the release of proinflammatory cytokines from skin cells (principally keratinocytes), usually in responses to chemic stimuli such as cleansers, soap detergent, and various chemical agents (Hogan Elson, 2013). The main pathophysiological changes are skin prohibition disruption, epidermal cellular changes and cytokine release. Irritant contact dermatitis is a major occupational disease skin disorders comprise up to 40% of occupational illness (Hogan Elson, 201 3). long-suffering work history is crucial in making diagnoses, and appearance of the skin. It may be treated with topical agents such as corticosteroid skin creams, emollients or moisturizers to prevent further irritation (Hogan Elson, 2013).Scenario 2The patient presented with redness and irritation of his hands. The history revealed no allergies or significant medical history except for repeated ear infections as a child. He denied any unknown exposure to stickers. Also, patient admits to working in maintenance and often working with abrasive solution and chemical. Normally he wears gloves, but this particular time the patient did not wear gloves. He exposed his hands to some cleaning solutions. The patients detailed history and clinical manifestations led the student to a diagnosis of irritant contact dermatitis.PathophysiologyStress is any situation that results in a response of the human body called the stress response (Huether McCance, 2012). The stress response is a se t of adaptations that are mobilized throughout the body to correct state of allostatic imbalance. This involves a fairly stereotyped set neural an endocrine changes. A critical one is the secretion of catecholamines-epinephrine and norepinephrine from the nerve endings of the sympathetic nervous system projecting throughout the body (Huether McCance, 2012). Catecholamine induces vasoconstriction and increases in heart rate and blood pressure. It also increases the amount of nutrient and oxygen that is available to the muscles reaction during a stress response (Huether McCance, 2012). Another is secretion by the adrenal glands of a class of steroid hormones called glucocorticoids (GCs) ((Huether McCance, 2012). While there is an array of additional changes in levels of various hormones during stress (generally an increase in circulating levels of glucagon, prolactin, and beta-endorphin, decreases in insulin and reproductive hormones), secretion of GCs and the activation of the sym pathetic nervous system constitute workhorses of the stress response (Huether McCance, 2012). Some common symptoms can include increase heart rate, chest pain, poor appetite, depression, and insomnia. Usually, coping strategies are beneficial in helping individuals manage stress physical and psychological (Huether McCance, 2012). Adaptive responses help prepare the body for fight or flight by activating adaptive immunity response to correct imbalance.Scenario 3The patient in this case study recently retired from her job as an administrative assistant at a local hospital. She does have a history of hypertensive, but controlled for years with medication. Patient reported having problem sleeping, occasionally rapid heart rate, and decrease appetite. She also mentioned her 87-year old mother moved in a a few(prenominal) years ago after falling down a flight of stairs and broken her hip. Martha is taking care of her mother who requires enormous amount assistance with activities of da ily living. She is worried about her own health at her age and sleep habits therefore clinical manifestations suggested stress disorder.Mind Map for Tonsillitis DisorderEpidemiologyIrritant contact dermatitis is common in occupations that involve repeated hand washing or repeated exposure of the skin to water, food materials, and other irritants. High-risk occupations include maintenance, health care workers food preparation, and hairstylists (Hogan Elson, 2013). The prevalence of occupational hand dermatitis was found to be 55.6% in 2 intensive care units and was 69.7% in the most highly exposed workers. Irritant contact dermatitis is significantly more common in women than men. The high frequency of hand eczema in women in comparison with men is caused by environmental factors, not genetic factors.PathophysiologyIrritant Contact Dermatitis (ICD) is a common nonimmunologically mediated inflammation arising from the release of proinflammatory cytokines from skin cells (principally keratinocytes), usually in responses to chemical stimuli such as cleansers, soap detergent, and various chemical agents (Hogan Elson, 2013). The main pathophysiological changes are skin barrier disruption, epidermal cellular changes and cytokine release hones nave T- lymphocytes to the skin. Patients with altered barrier function are more prone to ICD.Risk factorsPeople who work in occupational hazard environment and handles irritant such as cleaners, nurses, social organisation workers, mechanics, and agricultural workers are at risk for developing irritant contact dermatitis (Mayo Clinic, 2012). Another risk factor is younger workers often less experienced than their quondam(a) colleagues or may have a more careless attitude about safety measures causing them to develop the disorder (Mayo Clinic, 2012).Clinical presentationClinically, irritant contact dermatitis presents with scaly erythematous plaques, cracking of the skin, inflammation, dryness, and fissuring. It commonly inv olves web spaces that extend to the dorsal and ventral surface of the hand and fingers (Mayo Clinic, 2012). Vesicles do not typically form. Pruritus can be mild however, stinging, burning and pain are frequently reported symptoms.DiagnosisIrritant contact dermatitis does not need a specific rise because ICD can be diagnosed through clinical examination and a careful history. A clinical examination must include a careful anticipate at the distribution of the dermatitis (palmar, dorsal, face, abdomen, web spaces, and fingernails) as well as the extension of dermatitis to wrists or forearms (Mayo Clinic, 2012). The history should include a questionnaire that addresses the individual name and address of the employer the workers jobs title and a description of functions. The worker should provide a list of all chemicals handled and supply information about them, such as found on the Material Safety Data Sheets (MSDS) in order to provide an appropriate diagnosis (Mayo Clinic, 2012).Adap tive responses to alterationHarding or readjustment has been defined as the adaptation of the skin from altered local expression of multiple cytokines and inflammatory mediators with repeated irritation from skin irritants. Accommodated skin has a comparatively thicker layer of stratum granulosum versus normal skin. Accommodated skin may exhibit a slight sheen and glossy appearance with a mild scale. On manipulation, there may also be a slight loss of elasticity (Huether McCance, 2012).ConclusionWhen successful, an adaptive immune response terminates infection and provides long-lasting protective immunity against the pathogen that provoked response. Adaptive immunity is an evolving process within a persons lifetime, in which each infection changes the make-up of that individuals lymphocyte nation. Adaptive immunity is an evolving process within a persons lifetime, in which each infection changes the make-up of that individuals lymphocyte population (Huether McCance, 2012). These changes are neither inherited nor passed on but, during the course of a lifetime, they determine a persons fitness and their susceptibility to disease. Failures to develop a successful adaptive response can arise from inherited deficiencies in the immune system or from the pathogens ability to escape, avoid, or subvert the immune response. Such failures can lead to debilitating chronic infections or death (Huether McCance, 2012).ReferencesGolden, S. Shaw, T. (2013). Hand dermatitis Review of clinical features and treatment options. Retrieved from www.cutis.com/fileadmin/content/SCMS_vol32_No3_Golden.pdfHogan, D., Elston, D. M. (2013). Irritant contact dermatitis. Medscape. Retrieved from emedicine.medscape.com/article/1049353-overviewHuether, S. E., McCance, K. L. (2012). catch pathophysiology (Laureate custom ed.). St. Louis, MO Mosby.Mayo Clinic. (2012). Tonsillitis. Retrieved from www.mayoclinic.org/diseases/tonsillitis//con-20023538Tonsillitis. (2014). In Encyclopedia Brit annica. Retrieved from http//wwe.britannica.com/Ebchecked/topic/599370/tonsillitis