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Wasting

![Share_of_children_with_a_weight_too_low_for_their_height_wasting.png][float-right] Wasting is a form of acute undernutrition defined as low weight-for-height, indicating that an , typically a , is too thin relative to their due to recent rapid or failure to gain weight. This condition reflects a severe imbalance between energy intake and expenditure, often triggered by insufficient consumption, frequent , or underlying diseases that impair and utilization. Globally, wasting affects millions of children under five, with approximately 12.2 million experiencing severe forms in 2024, contributing to heightened vulnerability to mortality, as wasted children face up to ten times the risk of death from common illnesses compared to well-nourished peers. The condition is quantified using the weight-for-height ratio, expressed as: Wasting is diagnosed when this ratio falls below established thresholds, such as a Z-score of less than -2 standard deviations from the for the , or mid-upper circumference below 11.5 cm in . Primary causes include poverty-driven , suboptimal caregiving practices, and recurrent infections like or respiratory diseases, which exacerbate nutrient losses and metabolic demands. Consequences extend beyond immediate risks, encompassing impaired immune , developmental delays, and increased susceptibility to chronic issues in survivors, underscoring wasting's role as a critical indicator of failing systems and humanitarian crises in affected regions.

Definition and Characteristics

Clinical Definition

Wasting is clinically defined as a form of acute undernutrition marked by severe weight loss relative to height, primarily assessed in children as a weight-for-height Z-score (WHZ) below -2 standard deviations (SD) from the median of World Health Organization (WHO) growth standards. This criterion indicates recent and rapid depletion of fat and lean tissue due to insufficient nutrient intake, illness, or both, distinguishing it from chronic undernutrition (stunting). Moderate wasting corresponds to WHZ between -2 and -3 SD, while severe wasting is WHZ below -3 SD, bilateral nutritional edema, or mid-upper arm circumference (MUAC) below 115 mm in children aged 6-59 months. The WHZ is derived from standardized , where Z-score = (observed value - reference value) / of reference population, enabling cross-population comparisons; alternatively, weight-for-height percentage <80% of signals wasting, though Z-scores are preferred for precision. In adults, wasting lacks a universal anthropometric threshold but is recognized clinically as unintentional body weight loss exceeding 5% within 6 months or 10% within 12 months, often with disproportionate muscle depletion not solely attributable to reduced caloric intake. This presentation, observed in conditions like HIV or malignancy, involves systemic metabolic shifts beyond simple starvation. Diagnosis typically integrates serial weight measurements, body composition analysis (e.g., via dual-energy X-ray absorptiometry for lean mass), and exclusion of reversible causes like hyperthyroidism.

Distinction from Cachexia and Sarcopenia

Wasting, particularly in the context of acute malnutrition, is characterized by a low weight-for-height ratio, defined by the World Health Organization as a weight-for-height z-score below -2 standard deviations or mid-upper arm circumference below 115 mm in children under 5 years, reflecting recent severe weight loss or failure to gain weight due primarily to inadequate nutrient intake or absorption. This condition is typically reversible with timely nutritional intervention and supportive care, as it stems from caloric and protein deficits rather than intrinsic metabolic derangements. In contrast, cachexia represents a distinct syndrome of multifactorial origin, involving involuntary loss of skeletal muscle mass with or without fat depletion, driven by underlying chronic diseases such as cancer, chronic kidney disease, or heart failure, and marked by systemic inflammation, elevated cytokine levels (e.g., TNF-α, IL-6), and hypercatabolism that persists even with nutritional repletion. Unlike wasting, where muscle preservation may occur relative to fat loss in pure nutritional deficits, cachexia preferentially targets lean tissue due to upregulated proteolysis and impaired anabolism, rendering it resistant to diet alone and necessitating treatment of the primary pathology. Overlap can occur in severe cases, such as disease-associated malnutrition leading to wasting superimposed on cachectic processes, but the core distinction lies in cachexia's inflammatory and metabolic complexity beyond simple energy imbalance. Sarcopenia differs from wasting as a progressive, often age-associated decline in skeletal muscle mass, strength, and physical performance, quantified by criteria such as appendicular lean mass below 7.23 kg/m² in men or 5.45 kg/m² in women via dual-energy X-ray absorptiometry, independent of acute nutritional states. While wasting involves acute, global body composition shifts amenable to rapid recovery, sarcopenia is insidious and multifactorial, involving neuromuscular junction degradation, hormonal changes (e.g., reduced testosterone), and reduced satellite cell function, with secondary forms potentially exacerbated by chronic illness but not equated to the reversible thinness of wasting. Distinguishing features include sarcopenia's emphasis on functional impairment (e.g., low grip strength <27 kg in men or <16 kg in women) over mere anthropometric deficits, and its prevalence in otherwise healthy aging populations versus wasting's tie to immediate survival threats in vulnerable groups like children in famine or infection-prone settings.

Historical Context

The condition of wasting, characterized by severe tissue loss and emaciation, has been observed since antiquity, with ancient medical texts describing symptoms akin to —a term derived from the Greek "marasmos," meaning withering or decay—as a form of debilitating undernutrition leading to progressive muscle and fat atrophy. In the early 20th century, was formally recognized in pediatric nutrition as a pannutrient deficiency state resulting in extreme weight loss, distinct from edematous conditions like , which Cicely Williams first delineated in 1933 among children in Ghana experiencing protein-deficient diets post-weaning. These early descriptions emphasized clinical observation of rapid emaciation due to inadequate caloric intake, often compounded by infection, but lacked standardized anthropometric criteria for diagnosis or severity grading. Systematic classification emerged in the mid-20th century amid post-World War II efforts to address global undernutrition. In 1956, Francisco Gomez proposed a grading system for based on weight-for-age deficits relative to reference standards: Grade I (81-90% of expected weight), Grade II (71-80%), and Grade III (below 70%), derived from studies of Mexican children and intended to guide prognosis and intervention in resource-limited settings. This approach, while influential for identifying underweight broadly, conflated acute weight loss with chronic growth failure, as it did not account for height, leading to limitations in distinguishing reversible from irreversible stunting. A pivotal advancement occurred in the early 1970s when John Waterlow introduced the concepts of —defined as low weight-for-height (typically below 80% of reference)—and (low height-for-age below 90%), building on observations from famine and clinical studies to separate acute, potentially reversible malnutrition from chronic deficits. Published in a 1973 Lancet note, Waterlow's framework emphasized that reflected recent severe energy deficits or catabolic states, often linked to infection or starvation, enabling more targeted assessments in field epidemiology. This classification gained traction in the 1980s and 1990s as organizations like the World Health Organization adopted z-score adaptations (e.g., weight-for-height z-score below -2) for global monitoring, with prevalence thresholds established by 1995 to flag public health emergencies (e.g., over 10% indicating serious risk). These developments shifted focus from descriptive terminology to quantifiable metrics, informing interventions like therapeutic feeding protocols.

Epidemiology

Prevalence and Incidence

In 2024, the global prevalence of wasting among children under five years of age stood at 6.6%, affecting an estimated 42.8 million children worldwide. This figure derives from weight-for-height measurements indicating acute malnutrition, as tracked by joint estimates from UNICEF, WHO, and the World Bank using national surveys and modeling. Severe wasting, defined by a weight-for-height Z-score below -3 standard deviations, impacted 12.2 million children under five in the same year. Prevalence varies significantly by region, with South Asia and sub-Saharan Africa bearing the highest burdens; for instance, wasting rates exceed 10% in parts of these areas based on recent surveys. Global trends show minimal progress in reducing wasting prevalence since 2000, remaining relatively stagnant despite interventions, partly due to persistent food insecurity, conflicts, and climate impacts. Only 28% of countries are on track to meet Sustainable Development Goal targets for halving stunting by 2030, with even slower advancement for wasting. Incidence data for wasting remains limited globally, as routine tracking focuses on prevalence from cross-sectional surveys rather than longitudinal cohorts. In vulnerable communities, wasting can onset rapidly due to acute stressors like diarrhea or food shortages, with cohort studies reporting episode rates of up to 11.9% at birth in low-income settings, though repeated episodes in a single year are uncommon. In adults, wasting manifests primarily as cachexia in chronic conditions, with prevalence ranging from 5-15% in end-stage heart failure to 50-80% in advanced cancer, though population-level estimates are scarce due to disease-specific contexts. These rates underscore wasting's association with inflammatory chronic illnesses rather than a uniform epidemiological metric comparable to pediatric data.

Associated Conditions and Risk Factors

Wasting, defined as low weight-for-height z-score (typically below -2 standard deviations), is strongly associated with acute infections such as diarrhea, pneumonia, and measles, which increase metabolic demands and reduce nutrient absorption, thereby precipitating rapid weight loss. Chronic conditions including and tuberculosis further exacerbate wasting by impairing appetite, causing malabsorption, and elevating energy expenditure. In regions with high prevalence, parasitic infections like helminthiasis contribute through chronic nutrient losses and anemia. Key risk factors include household food insecurity and low socioeconomic status, with children from lower-income families facing up to 13 times higher odds of wasting compared to those from higher-income households due to limited access to diverse, nutrient-dense foods. Maternal malnutrition and low birthweight independently heighten vulnerability, as they compromise fetal growth and early postnatal nutrition, leading to a cycle of impaired catch-up growth. Poor feeding and care practices, such as inadequate breastfeeding or untimely complementary feeding, compound these risks by failing to meet caloric and micronutrient needs during critical growth windows. Environmental factors like unsafe water, poor sanitation, and hygiene deficiencies promote recurrent infections, which account for a significant proportion of wasting episodes in endemic areas; for instance, repeated diarrheal episodes can reduce weight gain by interfering with nutrient utilization. Lack of maternal education and antenatal care correlates with higher wasting rates, as it limits knowledge of optimal infant feeding and early illness recognition. In pooled analyses across low- and middle-income countries, parental undernutrition emerges as a leading modifiable factor, transmitting intergenerational risks through breastfeeding quality and household resource allocation.

Pathophysiology

Metabolic and Inflammatory Mechanisms

In wasting syndromes, metabolic adaptations to nutrient deprivation prioritize survival by mobilizing endogenous reserves, but these are often maladaptive in severe cases, leading to excessive lean tissue loss. During severe acute malnutrition, hepatic gluconeogenesis increases to maintain glucose homeostasis, evidenced by elevated ornithine and reduced lactate levels, while ketogenesis rises as indicated by higher 3-hydroxybutyrate concentrations. Concurrently, oxidative stress intensifies, with glutathione depleted by over 70% and methionine sulfoxide elevated, reflecting protein oxidation and impaired redox balance that exacerbates cellular damage and catabolic inefficiency. These shifts contribute to hypermetabolism, where resting energy expenditure can increase by 20-50% in cachectic states, outpacing adaptive conservation and driving progressive muscle depletion. Inflammatory processes amplify these metabolic derangements through systemic signaling that favors proteolysis over synthesis. Activation of the nuclear factor kappa B (NF-κB) pathway, triggered by pro-inflammatory stimuli, upregulates E3 ubiquitin ligases such as muscle RING-finger 1 (MuRF1) and muscle atrophy F-box (MAFbx/Atrogin-1), enhancing ubiquitin-proteasome system (UPS) activity and targeting myofibrillar proteins like myosin heavy chain for degradation. This pathway also impairs myogenesis by degrading MyoD transcription factors, reducing muscle regeneration capacity. In parallel, Janus kinase/signal transducer and activator of transcription (JAK/STAT) signaling promotes autophagy and UPS synergy, further skewing protein turnover toward net loss, particularly in chronic inflammatory conditions underlying cachexia. Autophagy-lysosomal pathways, while compensatory for mitochondrial clearance, become dysregulated, contributing to oxidative stress and energy inefficiency in wasted muscle. The interplay between inflammation and metabolism manifests as insulin resistance and glucocorticoid excess, which sustain lipolysis from adipose tissue and hepatic triglyceride accumulation, indirectly fueling muscle catabolism via amino acid diversion to gluconeogenesis. In malnutrition-associated wasting, these mechanisms compound baseline deficits, whereas in disease-driven forms, inflammation dominates, with studies showing UPS inhibition partially reversing atrophy in experimental models. Overall, this catabolic dominance reflects a failure of homeostatic balance, where inflammatory mediators override anabolic signals, perpetuating the wasting cycle.

Role of Cytokines and Hormones

Pro-inflammatory cytokines, including tumor necrosis factor-alpha (TNF-α), interleukin-6 (IL-6), and interleukin-1 (IL-1), are elevated in severe acute malnutrition and contribute to wasting by promoting systemic inflammation and muscle catabolism. These cytokines activate the ubiquitin-proteasome system and autophagy-lysosome pathways, leading to increased protein degradation in skeletal muscle. In children with malnutrition, TNF-α and IL-6 also induce anorexia by altering hypothalamic signaling and elevate resting energy expenditure, exacerbating energy deficits and tissue loss. Studies in cachexia models, applicable to wasting pathophysiology, demonstrate that TNF-α directly triggers myotube breakdown, while IL-6 sustains muscle atrophy through STAT3 signaling and suppression of myogenesis. Hormonal dysregulation amplifies cytokine-driven catabolism in wasting. Glucocorticoids such as cortisol are chronically elevated in malnourished children, enhancing gluconeogenesis from amino acids and inhibiting muscle protein synthesis via FOXO transcription factors. This hypercortisolemia represents an adaptive stress response to energy scarcity but sustains wasting by prioritizing visceral protein mobilization over peripheral tissue preservation. Concurrently, insulin-like growth factor-1 (IGF-1) levels decline markedly in children with moderate to severe acute malnutrition, impairing anabolic signaling through the PI3K-Akt pathway and reducing muscle repair capacity. Nutritional rehabilitation partially restores IGF-1, correlating with weight gain, though persistent GH resistance limits full recovery. Interactions between cytokines and hormones, such as IL-6 potentiating glucocorticoid effects, form a vicious cycle that perpetuates hypermetabolism and hypometabolism in adaptive phases. Leptin, reduced in low-fat states of wasting, further impairs immune function and appetite regulation, compounding endocrine imbalances.

Causes

Disease-Related Causes

Disease-related wasting, also known as cachexia in chronic contexts, arises from underlying pathologies that disrupt metabolic homeostasis, leading to involuntary loss of skeletal muscle mass with or without fat depletion. This syndrome is prevalent in advanced malignancies, where it affects up to 80% of patients, driven by tumor-induced inflammation and hypermetabolism that exceed nutritional intake. In cancer cachexia, pro-inflammatory cytokines such as tumor necrosis factor-alpha (TNF-α) and interleukin-6 (IL-6) promote proteolysis via ubiquitin-proteasome pathways and suppress muscle protein synthesis, independent of appetite changes alone. Pancreatic, lung, and gastrointestinal cancers exhibit particularly high rates, with weight loss often exceeding 5% in three months correlating with poorer prognosis. Infectious diseases, notably human immunodeficiency virus (HIV) and tuberculosis (TB), induce wasting through direct viral or bacterial effects compounded by opportunistic infections and immune activation. HIV-associated wasting involves >10% body weight loss plus at least 30 days of fever, diarrhea, or weakness, historically defining an AIDS indicator condition before antiretroviral therapy. Pathophysiologically, HIV elevates resting energy expenditure by 10-15% via chronic inflammation and alters gut absorption, with cytokines like IL-1 and TNF-α accelerating muscle catabolism; even in treated patients, residual wasting persists in 10-20% due to persistent viremia or comorbidities. Tuberculosis, often termed "consumption" historically, causes progressive wasting in 50-70% of pulmonary cases through Mycobacterium tuberculosis-induced anorexia, malabsorption from intestinal involvement, and hypermetabolism from granulomatous inflammation, with untreated patients losing 5-10% body weight monthly. Co-infection with HIV and TB synergistically worsens outcomes, amplifying cytokine storms and nutrient diversion to immune responses. Chronic organ failures contribute to wasting via , hormonal dysregulation, and reduced nutrient utilization. In congestive , cardiac affects 10-15% of advanced cases, characterized by >5% over six months, stemming from neurohormonal activation (e.g., elevated catecholamines and II) that promotes and , alongside gastrointestinal impairing intake. triggers uremic through accumulated toxins, , and , leading to and muscle , with prevalence rising to 20-30% in patients. Similarly, (COPD) and liver induce wasting in 20-40% of severe stages via hypoxia-driven , , and portal hypertension-related , respectively, where buildup in directly impairs muscle . These conditions underscore wasting as a multifactorial endpoint of unresolved rather than isolated .

Nutritional and Environmental Causes

Nutritional deficiencies underlie wasting through acute imbalances where energy and macronutrient intake falls below requirements, leading to tissue catabolism and loss of fat and muscle mass. Inadequate caloric consumption, often from food shortages or suboptimal —such as delayed complementary feeding or insufficient —directly precipitates weight-for-height deficits in children, with global estimates indicating 45 million affected under-fives as of 2023. Protein-energy shortages impair tissue maintenance, while gaps, though more linked to forms, can compound acute wasting by hindering metabolic adaptation; for instance, iron and deficiencies exacerbate susceptibility, indirectly amplifying nutritional shortfalls. Environmental conditions drive wasting by disrupting absorption and escalating physiological demands. Recurrent , particularly diarrheal episodes from contaminated and poor , induce and elevate resting energy expenditure by up to 20-50% during acute illness, converting marginal al states into overt wasting. Inadequate infrastructure, such as dirt floors or unimproved toilets, heightens exposure to pathogens and mycotoxins in , correlating with 1.5-2 times higher wasting in affected children per meta-analyses of low-income settings. Broader stressors like insecurity from or climate-induced —evident in regions where droughts reduce yields by 10-30%—restrict dietary , with wealth index showing inverse associations: poorest quintiles exhibit 2-3 fold wasting compared to wealthiest. These factors interact causally, as environmental insults increase losses via or , perpetuating a cycle independent of primary disease states.

Behavioral and Lifestyle Contributors

In children, suboptimal infant and young child feeding (IYCF) practices represent a primary behavioral contributor to wasting, encompassing failures in exclusive , delayed or inadequate complementary feeding, and insufficient dietary diversity or feeding frequency. The identifies inappropriate feeding practices as responsible for approximately one-third of all child malnutrition cases, including acute forms like wasting, due to reduced intake and impaired trajectories. Exclusive for the first six months mitigates wasting by providing essential nutrients and immune protection; mothers who do not adhere to this practice exhibit higher rates of wasted children, with odds ratios indicating a 1.5- to 2-fold increased likelihood. Inadequate complementary feeding—often involving monotonous diets low in micronutrients or infrequent meals—further compounds vulnerability, particularly in households where caregivers lack knowledge of age-appropriate portion sizes or responsive feeding cues. Caregiver behaviors influenced by cultural norms, such as food taboos restricting nutrient-dense foods (e.g., eggs or animal products for young children) or preferential allocation favoring certain family members, perpetuate insufficient caloric and protein intake leading to relative to height. Studies in low-resource settings link these practices to exceeding 10% in affected cohorts, with multivariate analyses confirming independent associations after controlling for socioeconomic confounders. Parental education deficits exacerbate these issues; lower maternal correlates with delayed initiation and suboptimal , elevating wasting odds by up to 40% in longitudinal data from multiple countries. In adults, behavioral patterns like voluntary caloric restriction through fad diets or contribute to wasting by inducing rapid fat and muscle depletion without compensatory intake. For instance, extreme or avoidance of food groups due to perceived health benefits has been documented in case series to precipitate weight-for-height z-scores below -2, mimicking acute . factors such as irregular meal timing— including chronic meal skipping or reliance on low-calorie beverages—disrupt metabolic , fostering catabolic states; cohort studies report these habits double the risk of unintentional exceeding 5% body mass in non-diseased individuals over six months. Substance-related behaviors, including use and excessive consumption, suppress and impair nutrient absorption, with meta-analyses attributing 15-20% of community-acquired wasting episodes in middle-aged adults to such modifiable habits.

Diagnosis

Clinical Evaluation

Clinical evaluation of wasting, a form of acute characterized by severe relative to height, primarily involves a detailed history and to detect , identify underlying contributors, and screen for life-threatening complications prior to confirmatory anthropometric measurements. The process distinguishes wasting (marasmus-like) from other malnutrition types, such as , which features , and assesses for concurrent issues like infections or that exacerbate the condition. History-taking focuses on dietary patterns, including inadequate caloric intake due to food insecurity, poor feeding practices, or recent challenges, alongside recent illnesses such as , respiratory infections, or recurrent fevers that increase metabolic demands. Caregivers should be queried on socioeconomic factors like or , family appetite changes, and secondary causes including chronic infections (e.g., or ) or parasitic infestations, which can precipitate rapid wasting. In resource-limited settings, this step also evaluates access to clean water and to contextualize environmental risks. Physical examination emphasizes general appearance, revealing an emaciated child with apathetic demeanor, reduced activity, and visually before measurements. Key signs include profound loss of subcutaneous (e.g., sunken cheeks, absent gluteal ) and muscle wasting (e.g., prominent , clavicles, and temporal muscles), with loose, dry skin folding due to tissue depletion. Absence of nutritional differentiates pure wasting from mixed forms, while additional findings like sparse or depigmented hair, brittle nails, or oral lesions (e.g., angular stomatitis) suggest deficits or prolonged undernutrition. assessment checks for , , or indicating metabolic stress or , and a full systemic exam screens for complications such as , , or via sunken eyes, reduced skin turgor, or absent tears. In children under 5 years, clinical evaluation prioritizes rapid identification of danger signs—convulsions, , or inability to drink—to guide urgent referral, as these signal high mortality risk in severe wasting. This approach, informed by WHO protocols, integrates clinical judgment with subsequent for accurate diagnosis, avoiding over-reliance on subjective appearance alone due to inter-observer variability.

Anthropometric and Laboratory Measures

Anthropometric measures form the cornerstone of diagnosing wasting, defined as acute malnutrition characterized by low weight-for-height. According to (WHO) standards, wasting in children under 5 years is identified when the weight-for-height Z-score (WHZ) is less than -2 standard deviations (SD) from the median of the WHO Child Growth Standards, indicating moderate acute malnutrition (MAM); severe acute malnutrition (SAM) is diagnosed at WHZ less than -3 SD. These standards are derived from multicentric growth reference data collected from 1997 to 2003 across diverse populations, ensuring applicability across ethnicities. Mid-upper arm circumference (MUAC) serves as a practical, non-invasive for WHZ in field settings, particularly for children aged 6-59 months, where a MUAC less than 115 mm indicates and 115-125 mm suggests MAM. This cutoff adjustment from 110 mm to 115 mm, validated in studies involving over 1,000 children, improves for detecting severe wasting without excessive false positives, facilitating rapid community screening. Measurements require standardized tape placement at the midpoint of the non-dominant arm, with bilateral pitting edema () contraindicating reliance on MUAC alone. Laboratory measures do not independently diagnose wasting, as anthropometry remains the gold standard, but they aid in identifying complications, underlying etiologies, and monitoring response to treatment, especially in . Common tests include (CBC) to detect (prevalent in up to 50% of cases due to deficiencies), random blood glucose to screen for (assumed present if unmeasurable, given risks in up to 50% of untreated SAM children), and serum electrolytes (potassium, phosphate, magnesium) to assess risks. (<30 g/L) and prealbumin levels reflect visceral protein depletion but are confounded by and , limiting specificity; elevation often accompanies acute phase responses in malnutrition. In resource-limited settings, routine labs are deferred unless clinical signs warrant, prioritizing stabilization over exhaustive testing.

Classification and Staging

Wasting is classified primarily through anthropometric indicators that assess body weight relative to height or reference standards, distinguishing acute forms like nutritional wasting from chronic associated with disease. In children under 5 years, the (WHO) defines wasting as a weight-for-height z-score (WHZ) below -2 standard deviations (SD) from the median of WHO growth standards, indicating acute energy deficit. Moderate acute corresponds to WHZ between -2 and -3 SD or mid-upper arm circumference (MUAC) of 115-125 mm for ages 6-59 months, while severe acute involves WHZ below -3 SD, MUAC below 115 mm, or the presence of nutritional . These thresholds reflect increased mortality risk, with severe cases carrying a 9-11 times higher of compared to non-wasted children. The WHZ is computed as: \mathrm{WHZ} = \frac{\mathrm{observed\ weight} - \mathrm{median\ weight\ for\ height}}{\mathrm{standard\ deviation\ of\ median\ weight\ for\ height}} or equivalently, weight-for-height percentage below 80% for moderate and 70% for severe wasting relative to reference medians. In adults, wasting classification often relies on body mass index (BMI) below 18.5 kg/m², combined with unintentional weight loss exceeding 5% over 6 months (or 10% over 1 year), alongside reduced muscle mass assessed via tools like bioelectrical impedance or computed tomography. The Global Leadership Initiative on Malnutrition (GLIM) criteria require at least one phenotypic criterion (e.g., low BMI or weight loss) and one etiologic factor (e.g., reduced intake or inflammation) for diagnosis, emphasizing severity grading via magnitude of weight loss or BMI decline. Staging of wasting, particularly in syndromes driven by chronic illness such as cancer or , progresses from pre-cachexia to advanced phases. Pre-cachexia involves subtle metabolic changes with under 5%, early anorexia, and inflammation markers like elevated , often preceding overt symptoms. stage features documented over 5% in 6 months (or over 2% with <20 kg/m²), , , and impaired , responsive to interventions targeting underlying causes. represents an irreversible end-stage with persisting over 3 months despite treatment, dominated by catabolic dominance and poor , where predominates. These stages guide prognostic stratification, with cases showing median survival under 3 months in advanced cancer. integrates clinical context, as pure nutritional wasting responds to refeeding, whereas disease-associated forms require addressing inflammatory drivers.

Treatment

Addressing Underlying Causes

The primary strategy in managing wasting syndromes, including , involves targeting the underlying process to interrupt the cascade of metabolic dysregulation, , and . Effective control of the inciting condition—such as , chronic infection, or —often stabilizes and improves muscle mass by reducing systemic pro-cachectic signals like elevated cytokines. In cases where the primary is reversible or responsive to , this approach can lead to partial or complete of wasting, though outcomes depend on stage and comorbidities. In cancer-associated , which affects up to 80% of advanced cases, tumor-directed therapies form the foundation of addressing the root cause. Surgical resection, , , and targeted molecular agents aim to reduce tumor burden, thereby diminishing tumor-derived factors that drive atrophy and adipose depletion via pathways like and activation. Clinical observations show that tumor response to these treatments correlates with improvement, with reduced pro-inflammatory levels following effective oncologic control. For instance, in responsive solid tumors, partial remission has been linked to weight stabilization in cohort studies, highlighting the causal link between uncontrolled and wasting progression. For infectious etiologies, such as HIV-associated wasting, antiretroviral therapy () targets to restore immune competence and halt opportunistic complications that exacerbate . Initiation of potent regimens has demonstrated reversal of in treatment-naive patients, with average gains of 5-10% body weight within months due to decreased and improved nutrient utilization. Similarly, in tuberculosis or other chronic infections, eradication combined with supportive care addresses the hypermetabolic state induced by persistent burden. In non-malignant chronic conditions like (COPD) or congestive heart failure (CHF), optimization of disease-specific therapies indirectly mitigates wasting by enhancing cardiopulmonary function, oxygenation, and appetite. For COPD, bronchodilators, inhaled corticosteroids, and reduce hypoxia-driven , while in CHF, inhibitors, beta-blockers, and diuretics alleviate fluid overload and improve , thereby supporting anabolic processes. These interventions, when titrated to guideline standards, have shown associations with preserved lean mass in longitudinal studies, though persistent in advanced stages often requires multimodal adjuncts. Across etiologies, concurrent management of reversible contributors—such as , imbalances, or treatment side effects like —amplifies the benefits of primary disease control. However, in or end-stage diseases, addressing the underlying cause may yield limited reversal due to entrenched metabolic adaptations, underscoring the need for integrated care.

Nutritional and Supportive Therapies

Nutritional rehabilitation forms the cornerstone of treatment for wasting, particularly in cases of severe acute (), where protocols emphasize phased refeeding to prevent . In the initial stabilization phase for complicated —characterized by medical complications or poor appetite—patients receive low-osmolarity formulas like F-75 , providing approximately 75 kcal/100 ml, at 100 ml/kg/day divided into 8-12 feeds, to stabilize and reduce mortality risk without excessive protein or sodium loads. Transition to F-100 (100 kcal/100 ml) or ready-to-use (RUTF) follows once appetite returns and stabilizes, aiming for catch-up growth at 150-220 kcal/kg/day. Outpatient management for uncomplicated SAM relies heavily on RUTF, a peanut-based paste delivering 500 kcal per 92g sachet, which has demonstrated recovery rates of 75-90% in community settings when provided at full dose for 6-8 weeks. Meta-analyses confirm RUTF's superiority over traditional foods in velocity (10-15 g/kg/day) and reduced default rates, though efficacy diminishes in HIV-co-infected cases without antiretroviral integration. Recent trials explore lower-dairy or plant-based RUTF variants, showing non-inferiority in recovery for cost-sensitive programs, with soy-maize-sorghum blends achieving similar mid-upper arm circumference gains. Supportive therapies complement nutrition by addressing micronutrient deficits and comorbidities. Routine supplementation includes (200,000 IU for children over 12 months), (20 mg/day for 10-14 days), and multivitamins, which reduce duration by 25% and mortality by up to 30% in SAM cohorts. Careful fluid management is critical, favoring oral rehydration solutions over intravenous fluids to avoid overload in hypotonic states prevalent in 70-80% of SAM cases; empiric antibiotics like amoxicillin cover common infections without awaiting cultures in resource-limited settings. Family education on , breastfeeding resumption for infants under 6 months, and follow-up monitoring enhances adherence, with community health worker models yielding 85% cure rates in scaled programs. The 2023 WHO guideline prioritizes simplified dosing (e.g., one /day for children 6-23 months initially) to improve access, though evidence gaps persist on long-term relapse prevention.

Pharmacological Interventions

In the management of severe acute malnutrition (), characterized by severe wasting, pharmacological interventions primarily target underlying s and complications, as infections contribute significantly to mortality in affected children. Routine empiric therapy is recommended by the (WHO) for all children with uncomplicated SAM in outpatient settings, even without overt clinical signs of , due to the high of subclinical bacteremia and risk in malnourished states. A randomized controlled trial conducted in involving 2,767 children aged 6-59 months with uncomplicated SAM demonstrated that oral amoxicillin (50 mg/kg twice daily for 7 days) reduced mortality by 12.9% and increased nutritional recovery rates compared to placebo, with no increase in adverse events. This evidence led to WHO guideline updates emphasizing amoxicillin as first-line therapy, preferred over alternatives like cotrimoxazole due to better coverage against common pathogens such as and . For children with complicated SAM requiring —such as those with , , or —initial intravenous antibiotics like (50 mg/kg every 6 hours) combined with gentamicin (7.5 mg/kg once daily) are standard to address presumed gram-positive and gram-negative , transitioning to once stabilized. Systematic reviews confirm that delaying or omitting antibiotics in this group elevates case-fatality rates, which can exceed 20% without intervention, underscoring the causal role of untreated in wasting progression. Adjustments for renal function are critical, as malnutrition alters drug , potentially prolonging gentamicin and risking . In cases of SAM complicated by HIV, co-administration of antiretroviral therapy (ART) is essential, with WHO recommending initiation or continuation of standard pediatric regimens (e.g., lopinavir/ritonavir-based for infants under 3 years) alongside nutritional rehabilitation, as untreated HIV accelerates wasting and doubles mortality risk. A review of integrated management protocols shows ART improves weight gain and immune recovery in co-infected children, though drug interactions and malabsorption necessitate therapeutic drug monitoring. For malaria-endemic areas, presumptive antimalarial treatment with artemisinin-based combinations (e.g., artemether-lumefantrine) is advised if Plasmodium is detected, given its role in exacerbating wasting. Other adjunctive pharmacotherapies, such as albendazole for deworming (400 mg single dose after stabilization), address helminth co-infections that impair nutrient absorption, though evidence for direct impact on wasting recovery remains supportive rather than primary. Pharmacological approaches do not include appetite stimulants or anabolic agents routinely, as trials in pediatric SAM have shown limited efficacy and potential risks like hormonal disruption, with nutritional therapies prioritized for rebuilding lean mass. High prescription rates of additional medications (e.g., antipyretics, antihistamines) observed in some programs often lack evidence-based justification and may increase costs without improving outcomes. Overall, these interventions must integrate with refeeding protocols, as isolated drug use fails to reverse wasting's metabolic deficits.

Emerging Therapies and Research

Research into novel therapeutic foods has identified microbiome-directed complementary foods (MDCFs) as a promising intervention for treating wasting in children. Developed by researchers at , MDCF-2, formulated with specific ingredients like chickpeas and soy, targets repair of immature gut s disrupted by , leading to sustained superior to standard ready-to-use (RUTF) in trials conducted in from 2019 to 2021. In a randomized controlled study published in 2021, children receiving MDCF-2 showed 50% greater ponderal growth over three months compared to those on traditional RUTF, with effects persisting post-treatment, suggesting potential for reducing rates. Follow-up emphasizes causal links between microbiome maturation and linear growth, prioritizing undigested complex carbohydrates to promote beneficial bacterial metabolites like . Simplified treatment protocols represent another emerging area, aiming to scale up outpatient management of uncomplicated severe acute (SAM). The WHO's 2023 guideline, informed by systematic reviews of trials from 2015–2022, endorses reduced-dose RUTF regimens and blanket screening without routine appetite tests, achieving recovery rates of 70–85% in community settings across and . The approach, tested in proof-of-concept studies in and (2020–2023), combines mid-upper arm circumference screening with lower RUTF doses, shortening recovery time to a median of 9–11 days while cutting costs by 30–50% versus inpatient stabilization. These protocols prioritize causal factors like rapid nutritional repletion over blanket inpatient admission, though evidence gaps persist for infants under 6 months and comorbid . Ongoing clinical trials explore cost-effective RUTF alternatives, such as soy-based or local-ingredient formulations, to address vulnerabilities exposed in 2025 disruptions affecting over 2.4 million children. A phase III (NCT06912620, initiated 2024) evaluates simplified RUTFs in moderate and severe wasting, targeting non-inferiority in recovery rates above 75% with 20–40% cost reductions. Pharmacological adjuncts, including routine antibiotics like amoxicillin, show mixed results; a 2022 of 11 trials found 10–15% mortality reductions in SAM but no consistent benefits without , underscoring the need for targeted use based on empirical markers. priorities, as outlined in 2023–2025 frameworks, emphasize prevention-integrated therapies, such as maternal supplementation to avert fetal origins of wasting, with pooled analyses indicating 20–30% lower incidence when initiated pre-pregnancy.

Prognosis and Complications

Mortality and Morbidity Risks

Severe wasting, defined as weight-for-height Z-score below -3 or mid-upper arm circumference below 115 mm in children under 5, carries a substantially elevated mortality risk, with untreated cases facing case fatality rates of 10-40% in clinical settings. Inpatient mortality for severe acute (SAM), the clinical manifestation of wasting, ranges from 3.6% to 28.7% during therapeutic management, influenced by factors such as concurrent infections and . Globally, acute malnutrition including wasting contributes to approximately 2 million under-5 deaths annually, often through exacerbated vulnerability to common illnesses like and . Children with moderate wasting experience 10-23% of attributable deaths beyond 6 months of age, underscoring the acute lethal potential even without severe . Morbidity risks stem from wasting's impairment of immune function and organ reserve, leading to heightened to ; undernourished children face 5-10 times greater odds of severe outcomes from diarrheal diseases and respiratory compared to well-nourished peers. Wasting correlates with increased incidence of dehydrating , where affected children show higher rates of fluid loss and than those with stunting alone. Common complications include , , and , which further elevate inpatient morbidity, with studies reporting clustered occurrences of fever, acute respiratory , and in wasted populations. This bidirectional cycle—wasting predisposing to , which in turn worsen wasting—amplifies overall , particularly in low-resource settings with limited access to rehydration and antibiotics.

Long-Term Outcomes

Children recovering from severe acute malnutrition, including wasting, frequently exhibit reduced lean body mass accretion compared to non-malnourished peers, potentially predisposing them to non-communicable diseases such as in adulthood. Longitudinal studies in low-resource settings demonstrate that survivors experience less catch-up growth, smaller head circumferences, diminished hand-grip strength, and heightened persisting into later childhood. These physical sequelae contribute to impaired physical capacity and increased vulnerability to recurrent infections over time. Neurocognitive impairments represent a prominent long-term consequence, with affected children showing lower scores, suboptimal school performance, and elevated rates of behavioral disorders extending into adulthood. In fragile contexts, severe acute malnutrition episodes correlate with deficits in adult cognitive processing, academic attainment, and socio-emotional regulation, independent of socioeconomic confounders in cohort analyses.66111-8/fulltext) Such outcomes stem from disruptions in during critical windows, exacerbated by deficiencies and inflammatory responses during the acute phase. Epidemiological reviews link childhood wasting to elevated risk in later life, with multiple studies reporting heightened odds ratios for and related morbidities among survivors.00339-5/fulltext) Economically, these deficits translate to diminished accumulation, including reduced productivity and earnings potential, as evidenced by cohort data associating early wasting with poorer labor market outcomes in low- and middle-income countries. While recovery programs mitigate immediate mortality, residual effects underscore the need for sustained interventions to avert intergenerational cycles of disadvantage.

Prevention Strategies

Primary Prevention

Primary prevention of wasting focuses on upstream interventions to avert the onset of acute by addressing root causes such as inadequate , frequent infections, and socioeconomic vulnerabilities. In 2022, approximately 45 million children under five years worldwide experienced wasting, underscoring the need for scalable, multisectoral strategies integrating , systems, , , and . The Global Action Plan on Child Wasting targets reducing prevalence below 5% by 2025 and 3% by 2030 through four strategic outcomes emphasizing prevention. Key interventions include optimizing maternal during and to reduce low birthweight, which affects about 20 million infants annually and predisposes to wasting; recommended actions encompass iron-folic acid supplementation and promotion of diverse, nutrient-rich for women. Exclusive breastfeeding for the first six months, followed by appropriate complementary feeding, forms a cornerstone, with goals to increase exclusive rates to 50% and minimum diet diversity to 40% by ; these practices enhance immune protection and nutrient absorption, mitigating risks from suboptimal feeding. Access to clean , , and (WASH) services prevents diarrheal diseases and other infections that exacerbate wasting, as inadequate WASH contributes to 30-40% of undernutrition cases in low-resource settings. supplementation, such as for children aged 6-59 months, reduces mortality and supports , while food and diversified household diets address deficiencies prevalent in food-insecure populations. Community-based approaches, including by workers and programs like cash transfers, enable early risk detection and buffer against household shocks, with evidence indicating multisectoral integration yields greater impact than siloed efforts.

Management in At-Risk Populations

In populations at elevated risk for wasting, such as children under five years in low-resource settings, humanitarian emergencies, refugee camps, and conflict-affected areas, management emphasizes scalable, community-integrated interventions to address barriers like limited healthcare access and high infection burdens. The World Health Organization's 2023 guideline prioritizes community-based management of acute malnutrition (CMAM), which screens for mid-upper arm circumference (MUAC) below 115 mm or weight-for-height z-score below -3, treating uncomplicated severe acute malnutrition (SAM) outpatient with ready-to-use therapeutic food (RUTF) at 200 kcal/kg/day, achieving recovery rates of 75-90% in non-emergency settings when adhered to. Complicated SAM, indicated by medical instability like dehydration or anorexia, requires inpatient stabilization with empiric amoxicillin (or ampicillin/gentamicin if unavailable), phased refeeding starting at 50-100 kcal/kg/day to avert refeeding syndrome, and deworming after initial stabilization. For and displaced populations, where wasting can exceed 15% due to disrupted systems, the United Nations High Commissioner for Refugees (UNHCR) implements CMAM through partnerships with and the [World Food Programme](/page/World_Food Programme), incorporating active community screening by health workers and distribution of RUTF alongside general rations to prevent relapse. In conflict zones, such as those in and the , interventions integrate nutritional care with infection control, including routine (200,000 IU for ages 6-59 months) and supplementation for , reducing case fatality from 10-20% to under 5% in well-resourced programs. Tailored approaches for comorbidities in at-risk groups, like or , involve antiretroviral therapy initiation alongside RUTF, with studies showing 20-30% higher recovery when nutritional support aligns with disease management. Post-discharge, small-quantity lipid-based nutrient supplements (SQ-LNS) at 20 g/day for 6 months have reduced by up to 25% in vulnerable children recovering from SAM, particularly in food-insecure households. Operational challenges, including supply chain disruptions in emergencies, necessitate prepositioning of therapeutic foods and training of community volunteers for MUAC screening every 1-3 months in high-burden areas.

References

  1. [1]
    Child malnutrition: Wasting among children under 5 years of age
    Child wasting refers to a child who is too thin for his or her height and is the result of recent rapid weight loss or the failure to gain weight.
  2. [2]
    Malnutrition - World Health Organization (WHO)
    Undernutrition manifests in four broad forms: wasting, stunting, underweight, and micronutrient deficiencies. Wasting is defined as low weight-for-height.Fact sheets · Children · Western Pacific
  3. [3]
    Joint child malnutrition estimates - World Health Organization (WHO)
    Stunting. 23.2%. of all children under 5 years were stunted in 2024 ; Wasting. 12.2 million. children under 5 years were affected by wasting in its severe form ...
  4. [4]
    Child wasting and concurrent stunting in low- and middle-income ...
    Wasted children have weakened immune systems, predisposing them to infections and more severe illness once infected. Wasting in very young children increases ...
  5. [5]
    Malnutrition: causes and consequences - PMC - NIH
    Disease-related malnutrition arises due to reduced dietary intake, malabsorption, increased nutrient losses or altered metabolic demands.
  6. [6]
    [PDF] Deep Dive Child Wasting - Preventing and Treating Acute Malnutrition
    Wasting is most directly caused by unhealthy diets and frequent common childhood illnesses. Underlying drivers of wasting are complex, additive, and vary across ...
  7. [7]
    Causes and consequences of child growth faltering in low-resource ...
    Sep 13, 2023 · Growth faltering in children in the form of stunting, a marker of chronic malnutrition, and wasting, a marker of acute malnutrition, is common among young ...
  8. [8]
    Fact sheets - Malnutrition
    Mar 1, 2024 · Malnutrition refers to deficiencies, excesses, or imbalances in a person's intake of energy and/or nutrients. The term malnutrition addresses 3 ...
  9. [9]
    Severe acute malnutrition - Pocket Book of Hospital Care for Children
    Severe acute malnutrition is defined in these guidelines as the presence of oedema of both feet or severe wasting (weight-for-height/length <-3SD or mid-upper ...
  10. [10]
    Definition of wasting syndrome - NCI Dictionary of Cancer Terms
    A condition marked by a loss of more than 10% of body weight, including loss of muscle mass and fat, in a person who is not trying to lose weight.
  11. [11]
    HIV wasting syndrome
    Dec 27, 2019 · Wasting syndrome refers to unwanted weight loss of more than 10 percent of a person's body weight, with either diarrhea or weakness and fever that have lasted ...
  12. [12]
    Wasting away: How to treat cachexia and muscle wasting in chronic ...
    It can be part of a wasting syndrome known as cachexia 1, 2. The defining feature of cachexia is overt weight loss, but muscle wasting can also become prevalent ...
  13. [13]
    Skeletal muscle wasting in cachexia and sarcopenia - PubMed Central
    In contrast to sarcopenia, cachexia is a complex metabolic syndrome characterized by a severe and involuntary loss of muscle mass with or without wasting of fat ...
  14. [14]
    Wasting in chronic kidney disease | Journal of Cachexia ...
    Mar 16, 2011 · In malnutrition, fat mass is preferentially lost and lean body mass and muscle mass is preserved. In cachexia/wasting, muscle is wasted and fat ...<|separator|>
  15. [15]
    Opinion Paper Consensus definition of sarcopenia, cachexia and ...
    Cachexia may be defined as a multifactorial syndrome characterized by severe body weight, fat and muscle loss and increased protein catabolism due to underlying ...
  16. [16]
    Sarcopenia: European consensus on definition and diagnosis
    Apr 13, 2010 · 'Cachexia' (Greek 'cac' or bad + 'hexis' or condition) is widely recognised in older adults as severe wasting accompanying disease states such ...Sarcopenia: European... · What Is Sarcopenia? · Assessment Techniques
  17. [17]
    Sarcopenia and cachexia: molecular mechanisms and therapeutic ...
    Jan 5, 2025 · Sarcopenia is defined as a muscle-wasting syndrome that occurs with accelerated aging, while cachexia is a severe wasting syndrome ...
  18. [18]
    Sarcopenia, Malnutrition, and Cachexia: Adapting Definitions ... - NIH
    Whilst sarcopenia is a nutrition-related disease, malnutrition and cachexia are nutritional disorders sharing the common feature of low fat-free mass. However, ...
  19. [19]
    History of Pediatric Nutrition and Fluid Therapy - Nature
    Nov 1, 2003 · The term marasmus (wasting or withering disease) was applied early in the 20th century to those individuals with severe pannutrient deprivation.<|control11|><|separator|>
  20. [20]
    The History of Nutrition: Malnutrition, Infection and Immunity
    Most of the available information was derived from animal studies, in which animals were deprived of certain nutrients in the diet and subjected to challenges ...
  21. [21]
    The Gomez classification. Time for a change? - PMC - NIH
    The history of the classification, its value, and its disadvantages are examined and an alternative classification based on more recent reference values of ...
  22. [22]
    The legacy of a standard of normality in child nutrition research - PMC
    Jul 6, 2021 · Waterlow (1972) tweaked the Gómez Classification; using weight-for-height he suggested three delineated malnutrition severities of 90–80, 80–70 ...
  23. [23]
    How Can Nutrition Research Better Reflect the Relationship ... - NIH
    Jun 10, 2022 · The terms wasted and stunted were introduced in the early 1970s by John Waterlow to differentiate, among underweight children, those who had a ...Missing: evolution | Show results with:evolution
  24. [24]
    Wasting and Stunting—Similarities and Differences - Sage Journals
    Mar 24, 2015 · Wasting and stunting are often presented as two separate forms of malnutrition requiring different interventions for prevention and/or ...<|control11|><|separator|>
  25. [25]
    Prevalence thresholds for wasting, overweight and stunting in ... - NIH
    Oct 9, 2018 · Prevalence ranges to classify levels of wasting and stunting have been used since the 1990s for global monitoring of malnutrition.
  26. [26]
    Malnutrition in Children - UNICEF DATA
    Jul 21, 2025 · The prevalence of children under 5 affected by stunting, wasting and overweight is estimated by comparing actual measurements to an ...
  27. [27]
    Prevalence of wasting, weight for height (% of children under 5) | Data
    Prevalence of wasting, weight for height (% of children under 5). UNICEF, WHO, World Bank: Joint child Malnutrition Estimates ( JME ). Aggregation is based on ...
  28. [28]
    Joint Child Malnutrition Estimates (JME) 2025 - UNICEF DATA
    Jul 21, 2025 · Even fewer countries are expected to achieve the 2030 target of 3 per cent prevalence for overweight, with just 17 per cent countries currently ...
  29. [29]
    UNICEF/WHO/World Bank Group joint child malnutrition estimates
    Jul 21, 2025 · The key findings 2025 Edition includes global, regional, and country trends from 2000-2024 for stunting and overweight. For wasting and severe ...
  30. [30]
    Prevalence and clinical impact of cachexia in chronic illness in ... - NIH
    Its prevalence ranges from 5–15% in end‐stage chronic heart failure to 50–80% in advanced malignant cancer. Cachexia is also frequently occurring in patients ...Missing: adults | Show results with:adults
  31. [31]
    Malnutrition in children - World Health Organization (WHO)
    The indicators stunting, wasting, overweight and underweight are used to measure nutritional imbalance; such imbalance results in either undernutrition.
  32. [32]
    Recognition and Management of Marasmus and Kwashiorkor - NCBI
    Aug 2, 2025 · Wasting, defined as low weight-for-height, can also result from chronic infections such as tuberculosis, HIV/AIDS, and intestinal parasitic ...
  33. [33]
    Wasting and Its Associated Nutritional and Non-Nutritional Factors ...
    Aug 1, 2024 · The study found that children from lower-income households had 13 times higher odds of experiencing wasting compared to those from higher-income ...
  34. [34]
    Nutrition and care for children with wasting | UNICEF
    Wasting is the most immediate, visible and life-threatening form of malnutrition. It results from the failure to prevent malnutrition among the most vulnerable ...
  35. [35]
    Risk factors associated with under-five stunting, wasting, and ...
    Dec 23, 2022 · Increasing child's age was a risk factor associated with stunting and underweight, while sex was not associated with the 3 indicators of ...
  36. [36]
    Factors influencing concurrent wasting, stunting, and underweight ...
    Dec 6, 2024 · The major risk factors for stunting includes poor maternal health, lack of antenatal care facilities, insufficient feeding and care, and ...
  37. [37]
    Factors Associated With Child Stunting, Wasting, and Underweight ...
    Apr 22, 2020 · Household socioeconomic status and parental nutritional status were the leading factors associated with child undernutrition in pooled analyses and in most ...
  38. [38]
    Metabolomic changes in severe acute malnutrition suggest hepatic ...
    These changes suggest that SAM is associated with elevated hepatic oxidative stress, increased gluconeogenesis, and alterations in 1-carbon metabolism.
  39. [39]
    Skeletal muscle wasting in cachexia and sarcopenia: molecular ...
    Jun 3, 2015 · This review will therefore discuss the molecular mechanisms associated with the pathology of muscle wasting in both sarcopenia and cachexia ...
  40. [40]
    Inflammation and Skeletal Muscle Wasting During Cachexia - Frontiers
    Cachexia is the involuntary loss of muscle and adipose tissue that strongly affects mortality and treatment efficacy in patients with cancer or chronic ...Missing: distinction | Show results with:distinction
  41. [41]
    Severe childhood malnutrition - PMC - PubMed Central - NIH
    Children with severe malnutrition have increased levels of markers of systemic immune activation, such as the pro-inflammatory cytokines TNF, IL-1, IL-6 and IL ...
  42. [42]
    Inflammation and Skeletal Muscle Wasting During Cachexia - PMC
    Several in vivo studies have highlighted the importance of specific pro-inflammatory cytokines or activation of specific inflammatory pathways in muscle wasting ...
  43. [43]
    Acute Malnutrition in Children: Pathophysiology, Clinical Effects and ...
    Aug 12, 2020 · Acute malnutrition has been recognized as causing reduction in the numbers of neurons, synapses, dendritic arborizations, and myelinations, all ...
  44. [44]
    Skeletal muscle wasting in cachexia and sarcopenia - PubMed Central
    TNF-α either on its own or in combination with other cytokines can induce the breakdown of mature myotubes [59, 60]. For example TNF-α and IFN-γ act ...
  45. [45]
    Interleukin-6 as a Key Regulator of Muscle Mass during Cachexia
    IL-6 has received significant attention for its regulatory role in muscle wasting during cachexia. This review will examine the role of circulating IL-6 for ...
  46. [46]
    Early and Long-term Consequences of Nutritional Stunting
    Increased cortisol levels during malnutrition represented an attempt of the organism to adapt to decreased dietary protein and/or energy supply through ...
  47. [47]
    The regulation of muscle mass by endogenous glucocorticoids - PMC
    Feb 3, 2015 · Glucocorticoids elicit the atrophy of muscle by increasing the rate of protein degradation by the ubiquitin-proteasome system and autophagy lysosome system.
  48. [48]
    IGF1 levels in children with severe acute malnutrition after nutritional ...
    After the nutritional rehabilitation, IGF1 increased significantly in both children with kwashiorkor and marasmus but the values were still lower than in ...Missing: wasting | Show results with:wasting
  49. [49]
    Correlates of serum IGF-1 in young children with moderate acute ...
    Similarly, changes in sIGF-1 were shown to be associated with changes in FFM but not FM in 6- to 9-y-old Ghanaian children with stunting and wasting prevalences ...
  50. [50]
    Pathophysiological Role of Hormones and Cytokines in Cancer ...
    Together with cytokines, hormones have a significant role in food intake and energy homeostasis; however, the pathophysiological role of these hormones has not ...
  51. [51]
    New Insights into the Pathogenesis and Treatment of Malnutrition
    Low leptin levels in malnutrition inhibit T-cell activation and skew differentiation of T cells from TH1 to TH2. Leptin also protects against thymic atrophy, ...
  52. [52]
    Cachexia - StatPearls - NCBI Bookshelf - NIH
    Exam findings may be normal early in the course of the disease. Other findings might include bitemporal muscle wasting, supraclavicular wasting, and general ...Cachexia · Pathophysiology · Treatment / Management
  53. [53]
    Treating Cancer Cachexia: Progress Looks Possible - NCI
    Aug 23, 2022 · Cachexia, a wasting syndrome that leads to loss of skeletal muscle and fat, is estimated to occur in up to 80% of people with advanced cancer.
  54. [54]
    Cancer cachexia: Pathophysiology and association with cancer ...
    Aug 22, 2022 · Cachexia is a syndrome of unintentional body weight loss and muscle wasting occurring in 30% of all cancer patients.
  55. [55]
    Cancer cachexia: molecular mechanisms and treatment strategies
    May 22, 2023 · In patients with cancer cachexia, metabolic and histo-morphological alterations in AT lead to wasting, which promotes muscle loss [53,54,55,56].<|separator|>
  56. [56]
    Wasting Syndrome, Weight Gain and HIV
    These might cause problems with the absorption of nutrients. MORE INFORMATION. HIVwasting.com. nam aidsmap: HIV-related wasting can have long-term consequences.<|separator|>
  57. [57]
    Human immunodeficiency virus-associated wasting and ... - PubMed
    Studies of HIV-associated wasting have revealed several possible mechanisms. Alterations in anabolic hormones, energy intake, energy expenditure, and production ...
  58. [58]
    [PDF] The Wasting Report: Current Issues in Research and Treatment of ...
    HIV/AIDS associated infections and pathology can affect each of these divisions of the small intestine, all of which may contribute to the wasting syndrome.
  59. [59]
    Cardiac cachexia and muscle wasting: definition, physiopathology ...
    Nov 13, 2014 · The most important factors are reduced food intake, gastrointestinal alterations, immunological activation, neurohormonal abnormalities, and an ...
  60. [60]
    Combating chronic kidney disease-associated cachexia: A literature ...
    Mar 11, 2025 · The present review aims to discuss some therapeutic strategies and provide an update on advances in nutritional approaches to counteract cachexia.
  61. [61]
    Mechanisms of Cachexia in Chronic Disease States - PMC
    Sarcopenia and cachexia are muscle wasting syndromes associated with aging and with many chronic diseases such as congestive heart failure (CHF), diabetes, ...
  62. [62]
    Cachexia: A systemic consequence of progressive, unresolved ...
    Apr 27, 2023 · Cachexia, a systemic wasting condition, is considered a late consequence of diseases, including cancer, organ failure, or infections.
  63. [63]
    Child wasting and concurrent stunting in low- and middle-income ...
    Sep 13, 2023 · Here we analyse 21 longitudinal cohorts and show that wasting is a highly dynamic process of onset and recovery, with incidence peaking between birth and 3 ...Missing: evolution | Show results with:evolution
  64. [64]
    Environmental Risk Factors Associated with Child Stunting
    The included studies showed that foodborne mycotoxins, a lack of adequate sanitation, dirt floors in the home, poor quality cooking fuels, and inadequate local ...
  65. [65]
    Acute Malnutrition in Children: Pathophysiology, Clinical Effects and ...
    Primary acute malnutrition in children is the result of inadequate food supply caused by socioeconomic, political, and environmental factors, and it is most ...
  66. [66]
    Factors associated with wasting among children under five years old ...
    Rarely caused by any one factor alone, wasting results from an interplay among poverty, disease, caring practices and diets, which vary by contexts.<|separator|>
  67. [67]
    Risk or associated factors of wasting among under-five children in ...
    Wasting in U-5 children results from an interplay between pregnant-mother's health and nutrition, child-caring practices, diets, poverty, and disease.
  68. [68]
    Relationship between child feeding practices and malnutrition in 7 ...
    The World Health Organization reported that inappropriate feeding in children is responsible for one-third of the cases of malnutrition.
  69. [69]
    Prevalence and associated factors influencing stunting and wasting ...
    Mothers who do not practice exclusively breastfeeding are more likely to have stunted and wasted children. Abstract. Childhood undernutrition continues to be a ...<|control11|><|separator|>
  70. [70]
    Determinant factors of under-five years severely wasted children in ...
    Jul 11, 2024 · ... wasting in various countries.[12]. The behavioral factors of nutritional problems, such as nutrient intake patterns, including energy ...
  71. [71]
    Factors associated with wasting and stunting among children aged ...
    Feb 24, 2023 · Wasting: refers to low weight for height. The child was classified as wasted if his/her z score was less than − 2SD; based on the WHO 2006 Child ...
  72. [72]
    Risk Factors of Malnutrition among In-School Children and ...
    Apr 15, 2024 · This review found that low family income, varying family sizes, parental employment status, and educational levels significantly impact malnutrition among in- ...
  73. [73]
    Clinical and behavioral factors associated with undernutrition ...
    Clinical and behavioral factors associated with undernutrition among ... nutritional malabsorption, and wasting syndrome are some of these reasons (7).
  74. [74]
    The Dual Burden of Malnutrition and Associated Dietary and ...
    Multivariate regression analysis revealed statistically significant positive association of age, skipping breakfast, and increased screen time with stunting ...
  75. [75]
    The dual burden of malnutrition and its associated factors among ...
    Nov 4, 2024 · ... wasting or underweight while mothers face overweight or obesity. ... Behavioral factors assessment: Alcohol consumption, tobacco, and other ...
  76. [76]
    Malnutrition in children in resource-limited settings
    Sep 19, 2024 · ... malnutrition" [2]. The major forms of acute malnutrition are marasmus (wasting) and kwashiorkor (edematous malnutrition), with or without ...<|separator|>
  77. [77]
    WHO guideline on the prevention and management of wasting and ...
    Dec 29, 2023 · WHO guideline on the prevention and management of wasting and nutritional oedema (‎acute malnutrition)‎ in infants and children under 5 years.
  78. [78]
    Marasmus: Definition, Symptoms & Causes - Cleveland Clinic
    Visible wasting of fat and muscle. · Prominent skeleton. · Head appears large for the body. · Face may appear old and wizened. · Dry, loose skin (skin atrophy).
  79. [79]
    Child malnutrition: Severe wasting among children under 5 years of ...
    Severe wasting is when a child is too thin for their height, defined as weight for height <-3 standard deviation from WHO standards.
  80. [80]
    Table 1, World Health Organization (WHO) classification of ... - NCBI
    Severely wasted, Weight-for-length/height <−3 SD of the median. a. WHO child growth standards: methods and development. Length/height-for-age, weight-for-age ...
  81. [81]
    Accuracy of MUAC in the Detection of Severe Wasting With the New ...
    WHAT THIS STUDY ADDS: This study confirms the need to change the MUAC cutoff value from ⬍110 mm to ⬍115 mm. This change is needed to maintain the same ...
  82. [82]
    Identification of severe acute malnutrition in children 6–59 months of ...
    Aug 9, 2023 · In children who are 6–59 months of age, severe acute malnutrition is defined by a very low weight-for-height/weight-for-length, or clinical signs of bilateral ...Who Recommendations · Evidence · Cost-Effectiveness Analyses
  83. [83]
    Malnutrition Workup: Laboratory Studies, Other Tests
    Jul 5, 2022 · The most helpful laboratory studies in assessing malnutrition in a child are hematological studies and laboratory studies evaluating protein status.
  84. [84]
    Nutritional Laboratory Markers in Malnutrition - PMC - NIH
    May 31, 2019 · About half of all published risk scores of malnutrition use serum laboratory markers such as visceral proteins, and others do not (Table 1).
  85. [85]
    Malnutrition: laboratory markers vs nutritional assessment - PMC - NIH
    May 11, 2016 · The current consensus is that laboratory markers are not reliable by themselves but could be used as a complement to a thorough physical examination.
  86. [86]
    Nutritional Assessment: Evaluation of anthropometric Data
    WHO further classify low weight-for-length/height as:“moderate acute malnutrition” when the weight-for-length/height is between −2 and −3 Z‑score, and “severe ...
  87. [87]
    GLIM criteria for the diagnosis of malnutrition – A consensus report ...
    The top five ranked criteria included three phenotypic criteria (weight loss, low body mass index, and reduced muscle mass) and two etiologic criteria (reduced ...
  88. [88]
    Cancer Cachexia: Definition, Staging, and Emerging Treatments
    Cancer cachexia is divided into three consecutive clinical stages: pre-cachexia, cachexia, and refractory cachexia, though patients may not experience all three ...
  89. [89]
    Cancer Cachexia: Symptoms, Treatment & Prognosis
    Pre-cachexia: In this stage, you're losing weight even though you're eating well. · Cachexia: You've lost more than 5% of your body weight in the past six to 12 ...
  90. [90]
    Cachexia (Wasting Syndrome): Symptoms & Treatment
    Apr 15, 2024 · Muscle loss: Healthcare providers may call this muscle wasting or muscle atrophy. In cachexia, your muscle mass decreases so your muscles appear ...Overview · Symptoms And Causes · Cachexia Causes
  91. [91]
    Cancer cachexia: impact, mechanisms and emerging treatments
    Combination interventions that target cachexia-related pathways in multiple locations, whilst also augmenting treatment of other aspects of patient disease, ...
  92. [92]
    Cancer therapy and cachexia - JCI
    Aug 1, 2025 · Cancer therapies affect cachexia development by interacting with tumors, for example, by influencing tumor-secreted factors and altering ...<|control11|><|separator|>
  93. [93]
    Reversal of cachexia in patients treated with potent antiretroviral ...
    This caused progressive physical-metabolic wasting (wasting syndrome/cachexia) and increased susceptibility to opportunistic infections and drug toxicity. PEM ...
  94. [94]
    Cachexia in chronic obstructive pulmonary disease - PubMed Central
    Furthermore, anabolic steroids could be considered in the treatment of COPD‐induced muscle wasting, although a recent meta‐analysis showed that exercise ...
  95. [95]
    Frailty, sarcopenia and cachexia in heart failure patients
    Jan 26, 2021 · Common HF drugs therapy (b-blockers, angiotensin-converting enzyme inhibitors) and prescription of physical exercise program remain the ...
  96. [96]
    Possible mechanisms underlying the development of cachexia in ...
    As with nutritional guidance, instituting a regimen of regular exercise does not cure cachexia per se, but just as with nutrition, physical activity is always ...CACHEXIA IN COPD... · POTENTIAL MECHANISMS...<|separator|>
  97. [97]
    [PDF] Cancer Cachexia
    How do we treat cancer cachexia? Address underlying problems: Manage cancer/treatment-related complications, such as nausea, pain, or.
  98. [98]
    Effect of preventive supplementation with ready-to-use-therapeutic ...
    RUTF has been shown to be effective in the treatment of severe and moderate wasting and was associated with higher recovery and rates of weight gain ...
  99. [99]
    Ready-to-Use Therapeutic Food (RUTF) Containing Low or No ...
    Ready-to-use therapeutic food (RUTF) containing less dairy may be a lower-cost treatment option for severe acute malnutrition (SAM).
  100. [100]
    The efficacy of 'ready-to-use therapeutic food - RUTF' without milk to ...
    Sep 1, 2025 · Five trials were included in this review. Three of five trials found non-milk RUTF (soy–maize–sorghum, fish-based) non-inferior to standard RUTF ...
  101. [101]
    Management of complicated severe wasting (acute malnutrition) in ...
    Sep 9, 2025 · As a result, CMAM has become the international standard of care for uncomplicated cases of severe wasting [3-5]. Other UpToDate topic ...<|separator|>
  102. [102]
    [PDF] TREATMENT OF WASTING USING SIMPLIFIED APPROACHES
    The evidence base on simplified approaches is quite substantial and mainly consists of research protocols, peer reviewed research, and Emergency Nutrition ...
  103. [103]
    WHO issues new guideline to tackle acute malnutrition in children ...
    Nov 20, 2023 · WHO issues new guideline to tackle acute malnutrition in children under five · Child-centred approach and of caring for mothers and their infants ...
  104. [104]
    Antibiotics as Part of the Management of Severe Acute Malnutrition
    Jan 31, 2013 · The amoxicillin used in this study cost an average of $2.67 per child ... Children's Nutrition Research Center, Baylor College of Medicine, ...
  105. [105]
    Use of antibiotics in the outpatient management of children 6-59 ...
    Aug 9, 2023 · An online library of evidence-informed guidelines for nutrition interventions and single point of reference for the latest nutrition guidelines.Missing: pharmacological | Show results with:pharmacological
  106. [106]
    [PDF] Antibiotics in severely malnourished children: systematic review of ...
    Ciprofloxacin remains a promising treatment considering its broad spectrum, good oral bioavailability and low reported resistance rates. These two drugs are ...
  107. [107]
    Influence of Malnutrition on the Pharmacokinetics of Drugs Used in ...
    Jun 1, 2021 · Drug elimination was decreased in severe malnutrition for the hepatically cleared drugs isoniazid, chloroquine, quinine, zidovudine, and ...
  108. [108]
    WHO issues new guidance for treating children with severe acute ...
    Nov 27, 2013 · We now know that antiretrovirals significantly increase survival of children with HIV, and access to these drugs is improving. The new ...Missing: pharmacological interventions
  109. [109]
    Guidelines for the treatment of severe acute malnutrition
    ... medication each child was to receive. •. After randomisation and distribution of the medications and placebo, study nurses educated each child's caregiver on ...
  110. [110]
    Prescribing practices in the treatment of wasting: secondary analysis ...
    Feb 26, 2024 · We found high rates of medication prescription during outpatient treatment for SAM, but fewer total medications and oral antibiotics prescribed to children ...
  111. [111]
    For malnourished children, a new type of microbiome-directed food ...
    A new study shows that a therapeutic food designed to repair the gut microbiomes of malnourished children is better than standard therapy in supporting their ...Missing: emerging | Show results with:emerging
  112. [112]
    How do children with severe underweight and wasting respond to ...
    Oct 19, 2022 · Children with severe underweight and wasting respond to treatment? A pooled secondary data analysis to inform future intervention studies.
  113. [113]
    Comparing time to recovery in wasting treatment - PubMed Central
    May 22, 2024 · New approach to simplifying and optimising acute malnutrition treatment in children aged 6–59 months: the OptiMA single-arm proof-of-concept ...
  114. [114]
    Infants and children 6–59 months of age with severe wasting and/or ...
    Aug 13, 2025 · Current research provides limited evidence on the identification of dehydration in children with severe wasting and/or nutritional oedema ...
  115. [115]
    NCT06912620 | Alternative RUTFs for Treatment of Child Wasting
    Moderate and severe acute malnutrition (MAM, SAM) are effectively treated with ready-to-use therapeutic foods (RUTFs) but there is a need to lower the cost of ...
  116. [116]
    At least 14 million children face disruptions to critical nutrition ...
    More than 2.4 million children suffering from severe acute malnutrition could go without Ready-to-use-Therapeutic-Food (RUTF) for the remainder of 2025. Up to ...
  117. [117]
    Closing the knowledge gap: Research priorities for preventing child ...
    Aug 18, 2025 · Research on how to address child wasting has historically focused on treatment of severe wasting. While treatment remains critical, there is ...Missing: emerging therapies
  118. [118]
    Predictors of inpatient mortality among children hospitalized for ...
    Severe acute malnutrition (SAM) is the most serious form of undernutrition, characterized by wasting with or without edema. Mortality remains high (10%–40%) ...<|separator|>
  119. [119]
    Predictors of mortality among severe acute malnourished children. A ...
    Studies depicted that, the mortality rate during therapeutic management ranges from 3.6% to 28.67% [13]. Because of the high prevalence of severe acute ...
  120. [120]
    [PDF] No More Deaths from Wasting: - International Rescue Committee
    Severe acute malnutrition (SAM) is identified by severe wasting, and refers to having extremely low weight-for-height. SAM is associated with higher risks ...
  121. [121]
    Wasting and Stunting in Infants and Young Children as Risk Factors ...
    Apr 8, 2021 · Beyond 6 months, wasting or WaSt was associated with 10–23% of deaths, while 33–44% of deaths occurred in solely stunted children in the first ...
  122. [122]
    Diarrhoeal children with concurrent severe wasting and stunting ...
    May 23, 2020 · In this study, wasting alone was significantly associated with dehydrating diarrhoea compared to children with only stunting, but children with ...
  123. [123]
    Health inequities and clustering of fever, acute respiratory infection ...
    Jun 24, 2021 · We explore the co-occurrence and clustering of fever, acute respiratory infection, diarrhoea and wasting and their relationship with equity-relevant variables.
  124. [124]
    The vicious cycle of undernutrition and infectious disease - VoICE
    Apr 24, 2018 · Wasting results from rapid weight loss or a failure to gain weight and affects about 8% of children, or 52 million, under 5 globally. However, ...Missing: complications | Show results with:complications
  125. [125]
    Long-term health status of children recovering from severe acute ...
    Jul 25, 2025 · The finding that children treated for SAM had a reduced proportion of lean tissue, which might predispose them to chronic diseases later in life ...
  126. [126]
    Long-term outcomes for children with disability and severe acute ...
    Oct 7, 2020 · Long-term survivors were more stunted, had less catch-up growth, smaller head circumference, weaker hand grip strength and poorer school achievement than non- ...
  127. [127]
    Neurodevelopmental effects of childhood malnutrition
    May 1, 2021 · ... morbid inflammation, diarrhea, and infectious diseases that often accompany childhood malnutrition. Children suffering from wasting also ...
  128. [128]
    A critical window: Early malnutrition sets stage for poor growth and ...
    Sep 13, 2023 · Early life malnutrition, which is associated with increased risk of disease, impaired cognition, and death, occurs earlier than expected, according to new ...Missing: peer- reviewed
  129. [129]
    Long-term effects of child nutritional status on the accumulation of ...
    Oct 13, 2023 · Finally, the long-term health consequences of persistent childhood malnutrition can ultimately translate into economic costs for individuals and ...
  130. [130]
    Neurodevelopmental, cognitive, behavioural and mental health ...
    Jul 6, 2022 · Long-Term effects of severe acute malnutrition during childhood on adult cognitive, academic and behavioural development in African fragile ...<|separator|>
  131. [131]
    [PDF] Global Action Plan on Child Wasting | Unicef
    1 The term 'wasting' within this document incorporates severe acute malnutrition (SAM, which includes severe wasting – also known as. marasmus, kwashiorkor and ...
  132. [132]
    insights from the 2023 WHO guideline | BMJ Global Health
    Aug 13, 2025 · Strengthening the evidence base around prevention and management of wasting and nutritional oedema in infants and children: insights from the ...
  133. [133]
    Nutrition and food security - UNHCR
    UNHCR works to prevent and reduce malnutrition and undernutrition in refugee populations, ensuring they have access to adequate nutrient-rich food.
  134. [134]
    Urgent action needed as acute malnutrition threatens the lives of ...
    Jan 12, 2023 · It aims to prevent, detect and treat acute malnutrition among children in the worst-affected countries, which are Afghanistan, Burkina Faso, ...
  135. [135]
    Evaluation of Nutrition Interventions in Children in Conflict Zones
    Sep 7, 2017 · Food shortages and access to adequate food and safe water remain a major concern for refugees living in conflict zones, which makes them highly ...
  136. [136]
    SQ-LNS to reduce relapse post-discharge from acute malnutrition ...
    Jun 1, 2025 · Small-quantity lipid-based nutrient supplements (SQ-LNS) hold promise for preventing relapse in an efficient and cost-effective way.
  137. [137]
    Rates and risk factors for relapse among children recovered from ...
    Community-based management of acute malnutrition (CMAM) is the standard treatment for children with severe acute malnutrition in low-resource settings. The ...
  138. [138]
    Evidence on Strategies for Integrating Nutrition Interventions with ...
    Apr 12, 2025 · This review has provided an in-depth insight into integrated nutrition and health strategies in conflict-affected settings, identifying key facilitators and ...