Wednesday, July 8, 2026

Neuroanatomy of Affective Touch Sensation

 

Neuroanatomy of Affective Touch Sensation

Introduction

Touch is central to interpersonal interactions and is one of the four main modalities of somatic sensation. Each relay either touch, heat, pain or pruritic (itch) information to the central nervous system. Apart from localized discrimination in space and time, touch also provides the subjective experience of affiliative or emotional somatic pleasure (McGlone, et al. [1]). Affective processing in skin-brain pathways has wider implications for the exchange of social information (Morrison, et al. [2]) and behavioral development (Bales, et al. [3]). Affective or pleasant touch such as stroking, caressing or hugging is an essential part of human behaviour. Complex molecules acting as neurotransmitters are involved including some that act as hormones such as oxytocin. The latter is well known for its role in generating feelings of attachment and affection (Shen, 2015) Interpersonal affective touch has an important role in mental health and plays a crucial part in social interactions including human development (Cascio, et al. [4]). Pleasant touch seems to provide emotional and psychological support that helps mitigate social isolation and stress (Chen [5]). However, the way in which pleasant touch information is encoded and transmitted from sensory neurons to the spinal cord - and the brain, remains somewhat uncertain.

Spinal Circuitry

Liu and colleagues (Bao, et al. [6]) identified interneurons in the spinal cord dorsal horn that express prokineticin receptor 2, as well as sensory neurons that express a binding molecule, or ligand, the neuropeptide prokineticin 2. These are involved in the encoding and transmission of pleasant touch. Chen showed that genetic ablation of these neurons in mice selectively abolished the pleasant touch-conditioned place preference test whilst preserving other sensations. These mutant mice display profound impairment in stress response and prosocial behaviour (Chen, et al. [7]). The subjective experience of emotional pleasure of touch seems to be mediated by a class of slow, unmyelinated peripheral nerve fibres with specific neurobiological and electrophysiological properties (McGlone, et al. [1]) that synapse in the spinal cord to produce this ligand or neuropeptide.

Mammalian and Primate Brain Pathways

Hang Yu and colleagues showed that social touch- like stimulation enhanced the firing of oxytocin neurons in the mouse paraventricular hypothalamus (Yu, et al. [8]). This pleasant sensory experience promoted social interactions and social behaviour with positive reinforcement of place preference. In primates, presumably including humans, social grooming (affective touching) clearly plays a particularly important role in social bonding. This has a major impact on social development and an individual’s lifetime reproductive fitness. There is strong evidence from comparative brain analysis that primates have social relationships of a qualitatively different kind to those found in other animal species (Panksepp [9] and Hertenstein, et al. [10]) with social grooming acquiring a new function. Dunbar has reviewed the evidence for a neuropeptide basis for social bonding (Dunbar [11]) with the neuroendocrine pathways involved demonstrating the central importance of oxytocin and endorphins. These two neuropeptides may play different roles however in the processes of social bonding in both primates and non-primates. The rewarding properties of social interaction in mice require the coordinating activity of oxytocin and the serotonin receptor 5HT in the nucleus accumbens (Dolen, et al. [12]). This has implications for understanding the pathogenesis of social dysfunction in neuropsychiatric disorders such as autism, discussed below.

Human Studies

Functional magnetic resonance imaging (fMRI) studies have been used to elucidate the unique different cortical signals in response to passive touch, both active and slow (Ackerley, et al. [13,14]) examined the relationship between the neural response and individuals’ social abilities in 19 healthy adults. Connectivity analysis revealed co-activation of the medial prefrontal cortex, orbitofrontal cortex, amygdala and insular cortex during slow touch. However, in participants with autistic traits, there was negative correlation to slow touch in some of these regions. The Voos study supports previous findings of the involvement of a network of “social brain regions” that process slow, unmyelinated afferent peripheral nerve fibres mediating affective touch (C tactile or CT system) as well as highlighting the multimodal nature of this system. The variability in the brain response to affective touch also illustrates a tight coupling of social behaviour and social brain function in a cohort of typical adults. In (Kirsch, et al. [15]) and colleagues reported studies addressing neurophysiological specificity in the communication of emotions by touch.

Blindfolded participants were touched without any contextual cues, and asked to identify the touch provider’s emotion and intention. Affiliative emotions such as love, or social support were reliably elicited by gentle, soft touch whether delivered by CT optimal velocities (3cm/s) or CT suboptimal velocities (18cm/s). However the CT optimal velocity gentle touch participants were significantly more likely to report arousal, lust or desire. This suggests that other “top-down” factors contribute to these aspects of tactile social communication. The posterior insular cortex is considered the primary cortical target of CT afferents and temporal cortex involvement has been linked to more affiliative aspects of CT optimal touch. This paradigm was tested by Kirsch in a stroke patient with right perisylvian damage including the insular cortex but excluding temporal cortex on MRI studies. He showed impairment in “reading” emotions based on CT optimal (3cm/s) touch. This study by Kirsch and colleagues suggest that the CT system can add specificity to emotional and social communication, particularly with regards to feelings of desire and arousal. On the basis of these findings they speculate that its primary functional role may be to enhance the “sensual salience” of tactile interactions in humans.

Touch and Human Development

Interpersonal touch influences neural and behavioral development throughout life (Bales, et al. [3]). Mental retardation in infants emanating from the notorious charity orphanages of Romania in the Soviet era (Nelson, et al. [16]) demonstrates the powerful force of touch in human development. The children in the orphanage were deprived of human touch and it is clear that disruption in early social-sensory input during infancy has severe developmental consequences throughout the life span. Social touch is important for cognition, attachment, communication and emotional regulation from infancy (Cascio, et al. [4]). The quality of touch matters with gentle stroking touch generating increased smiling, a lowered heart rate and increased engagement in infants. The pattern of neural responses to CT targeted touch appears similar in school age children as in adults, namely the posterior insular and posterior superior temporal sulcal regions. This circuitry for social touch continues to mature as the brain develops (Bjornsdotter, et al. [17]).

Cascio and colleagues reviewed the role of social touch in disordered development using as an example the autism spectrum disorder. Avoidance of social touch in infancy is a predictor of autism spectrum in older children (Mammen, et al. [18]). It seems clear that social touch plays a critical role in the neural, behavioural and physiological growth and advancement of infants and young children through to adolescence and adulthood. Far reaching epigenetically mediated effects on development have been broadly studied in the context of critical windows in the social and physical environments in humans (Szyf [19]). Parental touch is linked to oxytocin levels in parents (Feldman, et al. [20]) and this has effects on later social-emotional behavioural issues in children that are associated with maternal anxiety (Pickles, et al. [21]).

Social Touch in the Covid-19 Pandemic

Social distancing regulations and lockdowns during the pandemic reduced the ability to engage in personal touch. Meijer and colleagues conducted an online survey of nearly 2000 people in regard to the effect of these regulations. Participants reported feelings of longing for touch which increased with the duration and severity of the COVID-19 restrictions. There was also an associated increase in the perceived pleasantness of observing touch. Stress also seems to respond in a positive fashion to social touch and assists with adaptation to adversity (Dagnino Subiabre [22]) as witnessed in the COVID-19 pandemic. Whilst there are several factors affecting stress resilience, social behaviour inclusive of social touch seems vital. It may be possible in the future to modulate stress resilience through the stimulation of low threshold CT-fiber mechanoreceptors. This technology may have a role in the prevention of stress related neuropsychiatric disorders including social avoidance, acute anxiety and major depression [23-29].

Conclusion

The ligand prokineticin 2 has now been identified as the neuropeptide that encodes and transmits social or pleasant touch to the equivalent, appropriate spinal neurons. These findings have important implications for elucidating mechanisms by which pleasant touch deprivation contributes to brain development and mental disorders. Social touch in infancy has far reaching sequelae throughout the developing brain and it continues to influence brain development beyond infancy. Furthermore, it appears that this somatosensory system plays a key role in translating the socioemotional information of social touch into active coping with stress and building stress resilience in the longer term.


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Tuesday, July 7, 2026

Over-Prescription of Short-Acting β2-Agonists in Mexico: Results from the SABINA III Stud

 

Over-Prescription of Short-Acting β2-Agonists in Mexico: Results from the SABINA III Stud

Introduction

Asthma is a chronic disease of the airways that imposes a significant social and economic burden on patients and healthcare systems, affecting approximately 339 million people worldwide [1]. Despite significant advances in asthma care and the availability of updated international and national guidelines on asthma treatment and prevention [2], many patients worldwide may not have benefited from these efforts, especially those living in lowand middle-income countries where access to essential asthma medications remains a challenge [1]. As an upper middle-income country [3], Mexico has an estimated asthma prevalence of 5% [4] that continues to increase, with both underdiagnosis and poor disease control contributing to its impact [1,5]. Studies have shown that asthma in Mexico is associated with a number of factors, such as exposure to traffic-related pollution [6] and an urban lifestyle [7] accompanied by the consumption of a westernized, fat-rich diet [8] and limited physical activity [9]. Notably, the segmentation of the Mexican healthcare system continues to restrict public investment and expenditure and has failed to substantially reduce outof-pocket expenditure [3].

In addition, human resources and physical infrastructure are in relatively low supply and unequally distributed across the country [3]. Furthermore, the healthcare system faces challenges associated with chronic diseases, such as obesity and diabetes, as well as health inequity[3]. In addition to socioeconomic factors, treatmentrelated factors, such as overuse of short-acting β2-agonists (SABAs), often at the expense of regular maintenance therapy with inhaled corticosteroids (ICS), have been associated with poor asthma control across Latin America, including Mexico [10,11]. However, the Global Initiative for Asthma (GINA) no longer recommends as-needed SABAs without concomitant ICSs for patients aged ≥12 years [12].

Considering that medications rank as an important cost driver in asthma management [13], a greater understanding of prescription patterns is an area of growing interest, especially in low- and middle-income countries where improving access to affordable medications represents an unmet need [1]. Therefore, a detailed assessment of both SABA prescription patterns and over-the-counter (OTC) SABA purchases is required to provide clinicians, researchers, and healthcare policymakers with a better understanding on the extent of SABA use to ensure that treatment practices align with the latest evidence-based treatment recommendations, to prioritize healthcare resource expenditure, and to devise public health strategies to improve the quality of care for all patients with asthma.

The SABA use IN Asthma (SABINA) series of studies were undertaken to describe the global extent of SABA use through a series of large observational cohort studies applying a harmonized approach to data collection, evaluation, and interpretation [14]. Findings from SABINA III, conducted across 23 countries in the Asia-Pacific, Africa, the Middle East, Latin America, and in Russia, demonstrated that SABA over-prescription (≥3 canisters) in the previous 12 months was common, occurring in 38.0% of patients, and was associated with poor asthma-related outcomes [15]. Here, we report the results from the Mexican cohort of SABINA to provide real-world evidence on SABA prescriptions and asthma treatment practices in this country. The objectives of this study were to describe the demographics and clinical features of the asthma population by asthma severity, estimate prescriptions of SABA (canisters/year) and ICS (by average daily dose—low, medium, or high) per patient, and describe patients within the different treatment groups.

Methods

Study Design

The detailed methodology for SABINA III [15] has been published previously. In this observational, cross-sectional study conducted at four sites in Mexico, patients were recruited from August 2019 to January 2020. Retrospective data were obtained from existing medical records, and patient data were collected during a study visit and entered into an electronic case report form (eCRF). The study was conducted in accordance with the study protocol, the Declaration of Helsinki, and local ethics committees, and signed informed consent was obtained from all patients or their legal guardians.

Study Population

Patients aged ≥12 years with a documented diagnosis of asthma, ≥3 consultations with their healthcare practitioner (HCP), and medical records containing data for ≥12 months prior to the study visit were enrolled. Patients with a diagnosis of other chronic respiratory diseases, such as chronic obstructive pulmonary disease, or with an acute or chronic condition that, in the opinion of the investigator, would limit their ability to participate in the study were excluded. Study sites were selected using purposive sampling with the aim of obtaining a sample representative of asthma management within Mexico.

Study Variables

Each patient was categorized by their SABA and ICS prescriptions in the 12 months before the study visit. SABA prescriptions were categorized as 0, 1–2, 3–5, 6–9, 10–12, and ≥13 canisters, with prescription of ≥3 SABA canisters/year being defined as over-prescription [14]. ICS canister prescriptions in the previous 12 months were recorded and categorized according to the prescribed average daily dose (low, medium, or high) [16].

Secondary variables included practice type (primary or specialist care), investigator-classified asthma severity (guided by the GINA 2017 treatment steps: steps 1–2, mild asthma; steps 3–5, moderate-to-severe asthma) [16], time since asthma diagnosis, and prescriptions for asthma medications in the preceding 12 months (SABA monotherapy, SABA in addition to maintenance therapy, ICS, fixed-dose combinations of ICS with long-acting β2-agonists [LABAs], oral corticosteroid [OCS] burst treatment [defined as a short course of intravenous corticosteroids or OCS administered for 3–10 days or a single dose of an intramuscular corticosteroid to treat an exacerbation], long-term OCS [defined as any OCS treatment for >10 days], and antibiotics). Patients were also asked about pharmacy purchases of OTC SABA without a prescription at the pharmacy in the 12 months prior. Other variables included medication reimbursement status (not reimbursed, partially reimbursed, or fully reimbursed), educational level (primary or secondary school, high school, or university and/or post-graduate), body mass index (BMI), number of comorbid conditions, and smoking status.

Outcomes

Asthma symptom control was evaluated using the GINA 2017 assessment for asthma control [16] and categorized as well controlled, partly controlled, or uncontrolled. Severe exacerbations in the 12 months before the study visit were based on the American Thoracic Society/European Respiratory Society recommendations [17] and defined as a worsening of asthma symptoms requiring hospitalization, an emergency room visit, or the need for intravenous corticosteroids or OCS for ≥3 days or a single dose of an intramuscular corticosteroid.

Statistical Analysis

Descriptive analyses were used to characterize patients according to baseline demographics and clinical characteristics. Continuous variables were summarized by the number of nonmissing values, mean, standard deviation (SD), median, and range, whereas categorical variables were summarized by frequency counts and percentages.

Results

Patient Disposition

Of the 150 patients enrolled, one patient was excluded due to an asthma duration of <12 months; therefore, 149 patients were included in the analysis (Supplementary Figure 1). Although the intention was to recruit patients treated in both primary- and specialist-care settings, all patients were recruited by specialists, with most being treated by pulmonologists (94.6%; n=141). However, two patients were erroneously allocated to “primary care.” Therefore, data on overall disease characteristics and treatment patterns are reported for 149 patients, whereas data on asthma severity (“mild” vs. “moderate-to-severe”) are reported for 147 patients.

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Supplementary Figure 1: Patient disposition in the SABINA III Mexico cohort (N=149) by investigator-classified asthma severity.

*Two patients were erroneously classified under primary care.

SABA: short-acting β2-agonist; SABINA: SABA use IN Asthma.

Patient Characteristics

Overall, the mean (SD) age of patients was 49.1 (16.3) years, with most patients (55%; n=82) aged 18–54 years (Table 1). Patients with mild asthma were younger than those with moderatetosevere asthma (mean age, 41.6 years vs. 51.2 years). The majority of patients were female (79.2%; n=118) and had never smoked (79.2%; n=118). The mean (SD) BMI of patients was 28.2 (6.3) kg/ m2, with most (64.4%; n=96) being overweight or obese (BMI ≥25 kg/m2). The proportion of patients with BMI ≥25 kg/m2 was higher among those with moderatetosevere asthma than among those with mild asthma (71.1% [n=81] vs. 42.4% [n=14]). More than onequarter of patients (28.9%; n=43) had received secondary or high school education, while 53% (n=79) had obtained a university and/ or post-graduate education. Overall, 55.7% of patients (n=83) had full healthcare reimbursement, while 35.6% of patients (n=53) had no healthcare reimbursement.

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Table 1: Sociodemographics of the SABINA III Mexico cohort by investigator-classified asthma severity.

*Two patients were erroneously classified under primary care.

Data are presented as n (%) unless otherwise specified.

BMI: body mass index; max: maximum; min: minimum; SABA: short-acting β2-agonist; SABINA: SABA use IN Asthma; SD: standard deviation

Disease Characteristics

Patients had a mean (SD) asthma duration of 13.9 (15.1) years (Table 2). Overall, 22.8% of patients (n=34) had investigatorclassified mild asthma (GINA steps 1–2) and 77.2% (n=115) had moderate-to-severe asthma (GINA steps 3–5); the majority of patients were at GINA step 4 (51.0%; n=76). A comparable proportion of patients reported having no comorbidities and ≥1 comorbidity (48.3% [n=72] and 51.7% [n=77], respectively). However, a higher proportion of patients with moderate-to-severe asthma reported having ≥1 comorbidity compared with those with mild asthma (54.4% [n=62] vs. 39.4% [n=13]). Patients reported a mean (SD) of 1.3 (1.7) severe exacerbations in the previous 12 months, with 63.1% (n=94) and 15.4% (n=23) of patients experiencing ≥1 and ≥3 severe exacerbations, respectively. The level of asthma control was assessed as well-controlled in 40.3% of patients (n=60), partly controlled in 25.5% of patients (n=38), and uncontrolled in 34.2% of patients (n=51). More patients with mild asthma reported having well-controlled asthma compared with those with moderate-to-severe asthma (54.5% [n=18] vs. 36.0% [n=41]), whereas a higher proportion of patients with moderateto- severe asthma reported having uncontrolled asthma compared with those with mild asthma (37.7% [n=43] vs. 24.2% [n=8]).

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Table 2: Sociodemographics of the SABINA III Mexico cohort by investigator-classified asthma severity.

*Two patients were erroneously classified under primary care.

Data are presented as n (%) unless otherwise specified.

BMI: body mass index; max: maximum; min: minimum; SABA: short-acting β2-agonist; SABINA: SABA use IN Asthma; SD: standard deviation

Asthma Treatment in the 12 Months before the Study Visit

Overall, 51.7% of patients (n=77) were prescribed ≥3 SABA canisters, defined as overprescription, and 41.6% of patients (n=62) were prescribed ≥10 SABA canisters in the preceding 12 months (Figure 1). Approximately one-third of all patients (32.2%; n=48) were prescribed 0 SABA canisters.

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Figure 1: Proportion of patients receiving SABA prescriptions in the 12 months before the study visit according to investigator classified asthma severity in the SABINA III Mexico cohort (N=149).

*Patients without SABA prescriptions did not report what reliever they were using.

SABA: short-acting β2-agonist; SABINA: SABA use IN Asthma

A comparable proportion of patients with mild asthma and moderate-to-severe asthma were prescribed ≥3 SABA canisters in the previous 12 months (52.9% [n=18] and 51.3% [n=59], respectively). However, a higher proportion of patients with moderate-to-severe asthma were prescribed ≥10 SABA canisters 12 months prior (44.3% [n=51] vs. 32.4% [n=11]).

Prescriptions and Purchase of SABA

SABA Monotherapy: Overall, 8.7% of patients (n=13), all of whom were categorized with mild asthma, were prescribed SABA monotherapy in the previous 12 months, with a mean (SD) of 7.0 (4.7) canisters (Table 3A). Of these patients, 69.2% (n=9) were prescribed ≥3 SABA canisters in the 12 months prior. Moreover, 46.2% (n=6) were prescribed ≥10 SABA canisters in the previous 12 months.

Saba in Addition to Maintenance Therapy: Overall, 59.1% of patients (n=88) were prescribed SABA in addition to any maintenance therapy, with a mean (SD) of 8.7 (4.8) canisters in the previous 12 months (Table 3B). Among these patients, 77.3% (n=68) and 63.6% (n=56) were prescribed ≥3 and ≥10 SABA canisters, respectively, in the preceding 12 months. Compared with patients with mild asthma, a higher proportion of patients with moderate-to-severe asthma were prescribed ≥3 (82.9% [n=58] vs. 50.0% [n=8]) and ≥10 (72.9% [n=51] vs. 25.0% [n=4]) SABA canisters.

OTC SABA Purchase: Approximately one-fifth of all patients (20.8%; n=31) purchased SABA OTC, of whom 71% (n=22) purchased 1-2 canisters and 29.0% (n=9) purchased ≥3 canisters (Table 3C).

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Table 3: Patients in the SABINA III Mexico cohort who (A) received prescriptions for SABA monotherapy, (B) received prescriptions for SABA in addition to maintenance therapy, and (C) purchased SABA without a prescription in the 12 months before the study visit.

*Two patients were erroneously classified under primary care.

**“NA” could be selected in the eCRF when patients purchased non-canister forms of SABA (e.g., oral or nebulized SABA) without a prescription.

Data are presented as n (%) unless otherwise specified.

eCRF: electronic case report form; max: maximum; min: minimum; NA: not applicable; OTC: over-the-counter; SABA: short-acting β2-agonist; SABINA: SABA use IN Asthma; SD: standard deviation.

Prescriptions for other Asthma Treatments

Overall, 17.4% of all patients (n=26) were prescribed maintenance therapy in the form of ICS, with a mean (SD) of 9.6 (4.1) canisters in the previous 12 months (Table 4A). Two-thirds of these patients (66.7%; n=16) were prescribed medium-dose ICS. Most patients (77.9%; n=116) were prescribed an ICS/LABA fixeddose combination as maintenance therapy, with 63.8% (n=74) prescribed medium-dose ICS (Table 4B). The majority of patients with moderatetosevere asthma (99.1%; n=113) were prescribed ICS/LABA fixed-dose combination. Overall, in the preceding 12 months, 39.6% of patients (n=59) were prescribed an OCS burst (Table 4C). Compared with patients with mild asthma, a higher proportion of patients with moderatetosevere asthma were prescribed an OCS burst (44.7% [n=51] vs. 21.2% [n=7]). A small percentage of patients (4.7%; n=7), all of whom had moderate-tosevere asthma, were prescribed antibiotics (Table 4D).

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Table 4: Patients in the SABINA III Mexico cohort who received prescriptions for (A) ICS, (B) ICS/LABA (fixed-dose combination), (C) OCS burst/short course, and (D) antibiotics in the 12 months before the study visit.

*Two patients were erroneously classified under primary care.

Data are presented as n (%) unless otherwise specified.

ICS: inhaled corticosteroid; LABA: long-acting β2-agonist; max: maximum; min: minimum; OCS: oral corticosteroid; SABA: shortacting β2-agonist; SABINA: SABA use IN Asthma; SD: standard deviation.

Discussion

The findings from the Mexican cohort of the SABINA III study highlight that asthma continues to impose a considerable healthcare and socioeconomic burden on this patient population. Although most patients were prescribed maintenance therapy (ICS and ICS/LABA fixed-dose combinations), more than half of all patients (51.7%) received ≥3 SABA canister prescriptions in the previous 12 months.

In general, the overall demographic and lifestyle characteristics of the SABINA Mexico population were comparable with that of the SABINA III [15] population, although 79.2% of patients in the Mexican cohort were female, which was higher than that observed in the SABINA III [15] population. Notably, approximately twothirds of patients in the Mexican cohort (64.4%) were classified as overweight or obese (BMI ≥25 kg/m2); this finding is not entirely unexpected as the rates of obesity in Mexico have increased dramatically over the past 30 years, with Mexico now ranking second in the world for the overall prevalence of obesity, second only to the United States [3]. Even though all study sites were intended to be representative of healthcare practices across Mexico, their selection was likely restricted due to inherent challenges commonly encountered in conducting clinical trials at a primary care level [18]. Therefore, all patients were treated by specialists, with the majority having moderate-to-severe asthma (77.2%). Consequently, this cohort of patients from Mexico likely represents a “better case scenario,” given that all patients received specialist care.

Over-prescription of SABA medication was common in the Mexican cohort, with 69.2% and 77.3% of patients prescribed ≥3 SABA canisters as monotherapy or in addition to maintenance therapy, respectively, in the preceding 12 months. Therefore, a higher proportion of patients from Mexico were prescribed ≥3 SABA canisters as monotherapy and in addition to maintenance therapy compared with the overall SABINA III population, where this was reported in 53.6% and 61.7% of patients, respectively [15]. Moreover, SABA over-prescription might have been higher if primary care physicians, who may be less familiar with treatment recommendations, had participated in this study. Although findings from this study are based on a small number of patients, they are consistent with those of previous studies from Latin America, including Mexico, that have reported an over-reliance on SABAs among patients with asthma [10,11], reinforcing the urgent need for routine monitoring of SABA prescription patterns to promptly identify patients at increased risk of exacerbations [19]. The SABA prescription patterns observed in this patient cohort from Mexico may also be attributed to prescribing habits, such as automatic prescription refills, which may have resulted in a high and unnecessary number of dispensed canisters. This clearly demonstrates the need to reduce inappropriate prescribing of SABA; in this regard, it has been suggested that the use of electronic alerts integrated within electronic health records and delivered as part of a multicomponent intervention may prove to be a useful tool to reduce SABA over-prescription [20].

Unregulated access to SABAs was also common, with more than one-fifth of patients (20.8%) purchasing SABA OTC; this was comparable with the SABINA III study (18.0%). Among patients who purchased SABA OTC, 29.0% purchased ≥3 SABA canisters in the previous 12 months. These findings, although based on small patient numbers, are concerning because many patients who purchased SABA OTC likely did so in addition to their SABA prescriptions. However, these data provide valuable insights into patients’ beliefs and attitudes toward asthma management and are in alignment with previous research from Latin America, including Mexico, which reported that approximately half of the patients with asthma use quick-relief medication daily, believing that it is acceptable to do so [11]. As SABA purchases have been associated with infrequent physician consultations and undertreatment of asthma [21], these findings emphasize the urgent need for policymakers to regulate the availability of SABAs without prescription, while ensuring improved access to affordable medications to improve overall asthma management.

In general, most patients (77.9%) were prescribed maintenance medication in the form of a fixed-dose combination of ICS/LABA, which was in alignment with the fact that 77.2% of patients had moderate-to-severe asthma (GINA steps 3–5). However, patients were prescribed a mean of 9.6 ICS canisters in the preceding 12 months. This quantity suggests underuse, as one canister per month is considered good clinical practice, although in some cases, a single ICS inhaler provides a 2-month supply. The observation that prescriptions for maintenance medication did not conform to internationally recommended guidelines may also potentially indicate the risk of polypharmacy among patients in Mexico. Indeed, polypharmacy, or the use of multiple medications to treat patients with multimorbidities, or one or more medicinal agents to treat a single condition, is a common practice in Mexico and an area of concern as it is associated with chronic disease, suboptimal treatment outcomes, and increased adverse events due to drugdrug interactions [22,23].

Despite all patients being treated by specialists, the level of asthma control in SABINA Mexico was poor, with 59.7% of patients having partly controlled/uncontrolled asthma, which translated to a high disease burden, with 63.1% of patients experiencing ≥1 severe exacerbation in the preceding 12 months. In line with other studies [11,24], our findings may be attributed to SABA over-reliance and ICS underuse, particularly as previous research has demonstrated that patients from Latin American countries, including Mexico, have concerns about ICS use, do not have a clear understanding of adequate asthma control or how to measure control, and have low expectations on the benefits of successful asthma management, all of which translate to low treatment adherence [11].

The high disease burden observed in this Mexican cohort may also be explained by a lack of healthcare insurance and access to essential medications. Indeed, inadequate healthcare insurance coverage in patients with asthma has been associated with increased emergency room visits [25] and poor quality of care, including a lower likelihood of receiving ICS [26]. In line with estimates that more than half of the Mexican population is not covered by healthcare insurance [27], only 62.4% of patients from this Mexican cohort received partial or full healthcare reimbursement, while 35.6% received no healthcare reimbursement. Given that poor asthma control remains a major clinical challenge in Mexico, asthma advocacy programs can impact asthma care positively by improving access to treatment, raising awareness of disease and its effective management, and ensuring integration of the patient perspective into policy decisions [1].

In 2017, asthma experts from Mexico presented at the Senators’ Chamber of the Mexican Republic and underscored the importance of asthma as a public health concern, which necessitates a wider basic catalog of asthma medications and well-trained physicians [1]. The findings from this Mexican cohort further emphasize this point and highlight the need for political commitment supported by appropriate policies to improve overall disease management by establishing educational programs targeted at both patients and HCPs; providing additional education for specialists; regulating SABA OTC purchase while ensuring access to quality care and affordable medications, including adequate provision for ICScontaining medications; and prioritizing the implementation of current evidencebased recommendations. Following the historic 2019 updates in the GINA report on asthma management and prevention [12], a panel of experts in Mexico have now recommended that all patients with asthma receive anti-inflammatory treatment [28]. An effective strategy proposed by these experts was the use of low-dose ICS with a fast-acting β2-agonist as the preferred reliever for patients with intermittent symptoms and for those with persistent symptoms as a daily controller treatment and asneeded reliever medication [28]. This anti-inflammatory reliever approach represents a viable asthma management strategy, as ICS and fast-acting β2-agonists are available across most low-income settings [29]. However, as the current Mexican asthma guidelines [30] have not adopted these updated treatment recommendations, immediate action should be taken to ensure alignment with GINA.

Limitations

This study has several limitations. Prescription data were considered a surrogate for medication usage and do not reflect actual SABA administration or provide information on medication adherence, potentially contributing to an under-estimation or over-estimation of SABA use. As this analysis was limited to 149 patients, all of whom were recruited by specialists, the study population is not representative of the overall national asthma population and does not reflect the way asthma is managed presently in Mexico. Therefore, additional studies are required to gain a more comprehensive understanding of treatment patterns in both primary and specialist care. Moreover, the greater number of patients with moderate-to-severe asthma recruited into the study may influence the generalizability of the results.

Nevertheless, to the best of our knowledge, this is the first study specifically designed to examine the extent of SABA prescriptions and asthma treatment practices in Mexico, which may have important public health and policy implications. Moreover, centralized eCRFs can be a reliable source of real-world data, allowing policymakers and clinicians to consider the necessary targeted changes in clinical practice to improve outcomes for patients with asthma in Mexico.

Conclusion

Results from the Mexican cohort of SABINA III reveal concerning SABA prescription practices; despite specialist care, approximately one in every two patients were over-prescribed SABAs (≥3 canisters) and approximately four in every 10 patients were prescribed ≥10 canisters in the preceding 12 months. In addition, unregulated access to SABA was common, with 20.8% of patients purchasing SABAs OTC, of whom 29.0% purchased ≥3 SABA canisters in the previous 12 months. Taken together, these findings highlight that SABA over-prescription is a major public health concern in Mexico, requiring HCPs and policymakers to prioritize the alignment of clinical practices with the latest evidence-based recommendations to improve longterm treatment outcomes for patients with asthma.


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Monday, July 6, 2026

Nursing Care in Patients who have been Confirmed PCR Positive for COVID-19; Study Literature

Nursing Care in Patients who have been Confirmed PCR Positive for COVID-19; Study Literature

Introduction

COVID-19 is a virus that attacks the respiratory system, which has a bad impact on health accompanied by mild and severe symptoms, Middle East Respiratory Syndrome (MERS) and Severe Acute Respiratory Syndrome (SARS) are severe symptoms caused. Corona virus itself is a new type found by humans since it appeared in Wuhan, China in December 2019, and is named Severe Acute Respiratory Syndrome Coronavirus 2 (SARS CoV-2) (WHO 2021). The case began with pneumonia or mysterious pneumonia in December 2019. The case is allegedly related to the Huanan animal market in Wuhan that sells various types of animal meat, including those that are not commonly consumed, such as snakes, bats, and various types of rats (Ministry of Health [1]). This virus is transmitted through physical contact, wearing items alternately with patients who are positive for COVID-19, not wearing a mask when talking to COVID-19 sufferers, and so on. This virus is a disease that was not previously predicted to occur. The signs and symptoms of COVID-19 are classified as severe, the occurrence of acute respiratory syndrome, causing pneumonia, kidney failure, and most fatally resulting in death, while the symptoms are mild, fever, sneezing, sore throat and so on. Europe is the continent with the highest number of coronavirus cases at 160,797,607 cases, while the United States is the country with the highest number of cases worldwide at 81,012,955 people (WHO 2021). Indonesia is in 15th place with 5,826,589 cases. South Sulawesi has reached 140,256 cases. And the number of COVID-19 infection cases in Parepare City is 3,129 cases (Kemkes, 2021).

Method

The type of research used is literature research or literature study, which is research carried out through data collection or scientific papers that lead to research objects or data collection that are literature. The data collection method is carried out through a literature study by searching the results of scientific publications with a range of 2019-2021 using the Google Scholar database. The search results are then analyzed and concluded.

Result

This literature study is through searching the results of scientific publications with a time span of 2016-2021 using Google scholar https://scholar.google.co.id/Keyword used is “Nursing Care in Clients Who Have Confirmed PCR Positive for COVID-19. Secondary data sources are obtained with various keywords on Google scholar and on the website of the institution/campus. Based on the results of literature searches from https://scholar.google.co.id/ obtained several articles that met the inclusion criteria but the researcher focused on 5 articles.

Discussion

 Literature 1: Research conducted by (Arum Dian Pratiwi [2]). An Overview of the Use of Masks is during the COVID-19 Pandemic in Communities in Muna Regency, Southeast Sulawesi. The results of this study analysis showed that most respondents in Muna Regency always wore masks when traveling outside the house (57.8%). However, there were still 35.5% who admitted to rarely wearing a mask when leaving the house and 6.7% who admitted not to wearing a mask when leaving the house. The use of masks during this pandemic is very important to protect yourself and others.

 Literature 2: Research conducted by (Fauzan Alfikrie [3]) Student Knowledge and Attitudes in Covid-19 Prevention. The results of the study on the questionnaire of 40 respondents who participated in this study showed that the most respondents were female, namely 27 respondents (67.5%). The distribution of respondents based on the most semester levels is the first semester and the third semester of 25% each. And this study also explained that as much as 27.5% of respondents’ knowledge showed good behavior, poor knowledge showed bad behavior as much as 42.5% and positive respondents’ attitudes showed good behavior, namely 27.5%. The conclusion of this study is that there is a relationship between knowledge and covid-19 prevention behavior. Knowledge and good behavior can be used as a medium for health promotion about covid-19 prevention to the surrounding community.

 Literature 3: Research conducted by (Andriyati Ranggo, et al. [4]) Analysis of nursing care in patients with pneumonia et causa post covid-19 with a combination intervention of Deep Breathing and Humming to reduce shortness of breath in the ICU room of A.M. Parikesit Tenggarong Hospital. After 5 days of implementation on Mr. R, data was obtained that the client was all male. This result corresponds to the theory put forward by previous experts. According to the researchers’ assumptions, the combined intervention of Deep Breathing and Humming is very well given to patients who experience shortness of breath this is because Deep Breathing and Humming can reduce shortness of breath, as well as the use of Humming can increase the production of nitric oxide, and pH in the body. In addition, it can lower the hormone cortisol which can make the body relax.

 Literature 4: Research conducted by (Ni Putu Emy Darma Yanti, et al. [5]). Overview of Public Knowledge about COVID-19 and Community Behavior during the COVID-19 Pandemic. Most of the people of Simerta Kelod Village have understood and practiced various knowledge and behaviors related to the COVID-19 pandemic. The people of Simerta Kelod Village are considered to have good knowledge regarding various health protocols along with various basics that must be understood related to the COVID-19 pandemic. In addition, the people of Sumerta Kelod Village are considered to have a low potential for COVID-19 cases based on their history or behavior that has been implemented. Therefore, with good public knowledge during the COVID-19 pandemic, it is hoped that it can improve community behavior in carrying out clean and healthy living behaviors or compliance in implementing health protocols during the COVID-19 pandemic.

 Literature 5: Research conducted by (Bonavantura Nursi Nggarang [6]). The results of the assessment of PHBS attitudes and behaviors show a balanced number of positive attitudes and PHBS behaviors both from negative attitudes and bad PHBS behaviors. This is in line with other studies that show there is a meaningful relationship between attitudes and the implementation of PHBS. The better the attitude that the family has, the better the implementation/application of PHBS in the household order and vice versa the less good the family attitude, the more not implementing/implementing PHBS in the household order (Saini & Aminah, 2018). Phbs’ poor attitudes and behaviors such as not keeping water clean, rarely washing hands and others have serious impacts on health [7]. The results of the assessment of residents’ are attitudes towards covid-19 shows that the average citizen has a positive attitude towards efforts to prevent the transmission of covid-19 [8]. This is shown by the mean value of government policies in the form of health protocols during the pandemic such as maintaining distance, diligently washing hands, and wearing masks in the range of agreeing to strongly agree. The results of the assessment of community attitudes and behaviors showed that 48% of residents had a positive attitude towards PHBS and 42% of residents had poor PHBS behavior. The attitude of residents in dealing with covid-19 tends to be positive, shown by most residents expressing agreement and strongly agreeing with efforts to prevent the transmission of covid-19 [9]. From several articles, the scientific work above can be seen that in the case of covid-19 the symptoms that can occur in clients are fever, fatigue, dry cough, dyspnea, diarrhea, pneumonia, pain, nausea, anxiety, and delirium [10]. Nursing diagnoses in covid patients are generally ineffective airway clearance, ventilator weaning disorders, gas exchange disorders, ineffective breathing patterns, spontaneous circulation disorders, hyperthermia and anxieties [11]. The combined intervention of Deep Breathing and Humming is very well given to patients who experience shortness of breath, this is because Deep Breathing and Humming can reduce shortness of breath, and the use of Humming can increase the production of nitric oxide, and pH in the body [12]. In addition, it can lower the hormone cortisol which can make the body relax [13].

Conclusion

Based on the results of data analysis, the author obtained data from a journal on the literature study “Nursing Care in Clients Who Have Confirmed PCR Positive for COVID-19, the author draws the following conclusions: Symptoms in COVID-19 clients may occur fever, fatigue, dry cough, dyspnea, diarrhea, pneumonia, pain, nausea, anxiety, and delirium. Nursing diagnoses in covid patients are generally ineffective airway clearance, ventilator weaning disorders, gas exchange disorders, ineffective breathing patterns, spontaneous circulation disorders, hyperthermia and anxieties. There is a decrease in shortness of breath after the administration of a combination intervention of Deep Breathing and Humming and the use of masks during this pandemic is very important to protect yourself and others.


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