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Review

Complementary Strategies to Promote Hair Regrowth in Post-COVID-19 Telogen Effluvium

Marius Nicolae Popescu1 Department of Physical and Rehabilitation Medicine-Elias Emergency University Hospital, “Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania
,
Mihai Berteanu1 Department of Physical and Rehabilitation Medicine-Elias Emergency University Hospital, “Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania
,
Cristina Beiu2 Department of Oncologic Dermatology-Elias Emergency University Hospital, “Carol Davila” University of Medicine and Pharmacy, Bucharest, RomaniaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-4632-576X
ORCID Icon,
Liliana Gabriela Popa2 Department of Oncologic Dermatology-Elias Emergency University Hospital, “Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania
,
Mara Mădălina Mihai2 Department of Oncologic Dermatology-Elias Emergency University Hospital, “Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania
,
Madalina Gabriela Iliescu3 Department of Medical Rehabilitation, “Ovidius” University, Constanta, Romania
,
Ana Maria Alexandra Stănescu4 Department of Family Medicine, “Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania
&
Anca Mirela Ionescu5 Department of Physical and Rehabilitation Medicine, “Carol Davila” University of Medicine and Pharmacy, Bucharest, RomaniaORCID Iconhttps://orcid.org/0000-0002-0936-253X
ORCID Icon show all
Pages 735-743 | Published online: 22 Apr 2022

Abstract

Post-COVID-19 telogen effluvium has been largely reported as a sequela in the post-acute phase of COVID-19, causing major emotional distress among the affected patients. The affected individuals are further exposed to a vast amount of misinformation from the internet and social media and it is important for physicians to be familiar with the phenomenon and provide appropriate counselling to their patients regarding this condition. This article aims to review the evidence-based complementary strategies that can help enhance hair regrowth after post-COVID-19 hair loss, from psychological support and patient education to the importance of optimal nutrition and potential indications and benefits of oral nutritional supplementation, as well as the role of both topical and injectable hair growth stimulators.

Introduction

Since the ensue of this worldwide pandemic there has been a vast amount of scientific articles aiming to describe the individuals’ lasting health consequences after the acute phase of COVID-19, with hair loss being one of the most common effects. The phenomenon is considered as telogen effluvium (TE), a diffuse hair loss due to dysregulation of the hair growth cycles.Citation1

TE is by far the most common form of hair loss observed during the ongoing pandemic.Citation2 However, alopecia areata (AA), another nonscarring hair loss, has also been reported after SARS-CoV-2 infection in small sample size studies.Citation3 The disorder is believed to be immune-mediated, occurring as a response to the inflammatory process that affects anagen hair follicles. Contrary to TE, the hair loss is usually patchy, nondiffuse. The causal link between COVID-19 and AA onset is not clarified and the disease will not be discussed in this review since TE and AA are distinct entities, with different management options.

Clinical trials have also addressed the possible connection between alopecia androgenetica (AGA), another form of chronic hair loss, and the severity of COVID‐19.Citation4 In this respect, we want to clarify that AGA is the only hair loss disorder that has been investigated as a determinative factor for COVID-19 severity, and not as a COVID-19 sequela.Citation5 It was stipulated that androgen receptor activity stimulate TMPRSS transcription, an important part of the viral entry of COVID-19 via cleavage of ACE2 and priming of spike protein. ACE2 and androgen receptors can be found on chromosome X giving us insight into why males are predominantly affected. On the same note, androgen sensitivity may point to the reason why children may not be as severely affected as their elders when met with COVID-19.Citation6 We did not find any research that further investigated the severity of post-COVID-19 hair loss in patients previously diagnosed with AGA. Our paper focuses on acute hair loss as a consequence of COVID-19, not on the relationship between previous chronic hair loss disorders and COVID-19 severity, hence this review will not include further discussions on this topic.

Approximately 25% of COVID-19 patients suffer from acute classic telogen effluvium in the first two to three months after the infection, with women being at greater risk than men.Citation7 Yet, an early onset telogen effluvium after COVID-19 has been observed within less than 2 months after COVID-19 infection, especially in patients affected by more severe forms of COVID-19.Citation8 This early-onset telogen phase may be related to the direct effect of high levels of pro-inflammatory cytokines on hair follicle cells, since severe cases of SARS-CoV-2 are typically characterized by higher levels of pro-inflammatory cytokines and reduced host antiviral responses.Citation1 Furthermore, pro-inflammatory states caused by COVID-19 could cause the formation of microthrombi in the hair follicles, which could lead to occluding hair follicles’ blood supply.Citation9

Further histopathological and/or immunohistochemical studies are warranted to elucidate the precise etiopathogenesis of this phenomenon,Citation1,Citation10 but, at this moment, it is believed the condition can be triggered by both the systemic viral infection itself as well as the stressors related to the COVID-19 pandemic.

Although spontaneous improvement is expected for most patients with post-COVID-19 TE, patients regularly seek effective ways to enhance the process of hair regeneration. A massive increase in searches using the keywords “hair loss” has been noticed in Google Trends since the ensue of the COVID-19 pandemic.Citation11 Due to the proliferation of misinformation and unverified information about post-COVID-19 hair loss, these highly vulnerable patients may be easily misled into trusting non-evidence-based practices that promise to treat this condition.

This article proposes a holistic approach that reviews only the evidence-based complementary strategies (both general measures as well as local treatments) that can help reduce post-COVID-19 hair loss and promote hair re-growth: (i) General measures: patient education and stress-coping mechanism, dietary interventions and oral hair growth supplements; (ii) local treatments: from topical therapy with minoxidil to minimally invasive scalp injections (mesotherapy and platelet-rich plasma therapy) (). The clinical decision of initiating any of these treatment modalities should be made on an individual case-by-case basis, after careful evaluation of all psychosocial and physiological factors, and integration of patient preferences.

Figure 1 Schematic representation of the complementary strategies that can help reduce post-COVID-19 hair loss and promote hair re-growth.

Figure 1 Schematic representation of the complementary strategies that can help reduce post-COVID-19 hair loss and promote hair re-growth.

Patient Psychological Support and Education

New onset diffuse hair loss can markedly affect a person’s psychosocial well-being,Citation12 even more in patients previously infected with SARS-CoV-2 (). And emotional distress is well known to be an inciting trigger for the induction of hair shedding,Citation13 thus, these patients often find themselves trapped in a vicious cycle.

Figure 2 Acute reduction in total hair density in a 37-year-old female who is recovering from moderate SARS-CoV-2 infection. The diffuse hair loss is most noticeable in the frontotemporal region and first developed within two months after COVID-19. The patient also reported high levels of anxiety caused by the acute hair loss.

Figure 2 Acute reduction in total hair density in a 37-year-old female who is recovering from moderate SARS-CoV-2 infection. The diffuse hair loss is most noticeable in the frontotemporal region and first developed within two months after COVID-19. The patient also reported high levels of anxiety caused by the acute hair loss.

So, expressing empathy and support for the patient’s anxiety and psychological stress is an important component of patient management. Since the ensue of this worldwide pandemic, in addition to the illness itself, many other COVID-19 related stressors can further enhance hair loss, such as social isolation, work-related changes, or financial stress, among others. A holistic approach, with integration of stress-coping strategies into the management of these patients, could be particularly useful.Citation14 Regular physical activity, yoga, meditation, adequate amounts of sleep are all powerful but often overlooked stress management tools.Citation15

Regarding patient education, is essential to instruct the patients about the nature of the hair loss, namely that infectious illnesses and fever can affect the hair growth lifecycle, by forcing more hair follicles than normal to prematurely enter the shedding (telogen) phase. As a consequence, some patients may experience noticeable hair shedding two to three months after COVID-19.Citation16 Additionally, patients should be instructed that an earlier than classic TE has been reported, and they may experience hair loss even in the first month after the infection.Citation8

Most patients are anxious that they will gradually lose all the hair on the scalp, and is important to clarify that this is not expected since the shedding is known to affect up to 30% of scalp hair.Citation17 It is also necessary to reassure the patient that fortunately, the disorder is reversible. The hair loss is usually self-limiting and spontaneous improvement is expected after 6 to 12 months from the onset of the condition to noticeable improvement.Citation18

Nutrition

Optimal nutrition is a crucial strategy that can mitigate the hair loss consequences associated with COVID-19, through nutritional modulation of the immune system. It is also important to take into account that anosmia/ageusia are symptoms frequently reported in COVID-19 and can lead to decreased appetite and nutritional deficiencies that can either induce or aggravate hair fall.Citation19

Thus, consumption of healthy foods should be a top priority to maintain adequate nutritional status and a well-functioning immune system, reducing susceptibility to long-term sequels from COVID-19 in general.Citation20 It is known that improved nutrition containing micronutrients such as vitamins (A, B complex, C, D, and E) and minerals (iron, zinc) have a potential role to augment the immune system.

Micronutrients that help maintain a well-functioning immune system can be particularly found in fresh foods (citrus fruits and vegetables), whole grain foods (brown rice, oats), lean meat, fish, low-fat dairy, and healthy fats (nuts, seeds, olive oil and fish oil).Citation21 On the other hand, an unhealthy diet consisting of sugars, saturated fats (fatty acids), and refined carbohydrates (pastries, white bread) leads to chronic inflammation and lowers the body’s ability to defend against the effects of the virus.

Oral Hair Growth Supplements

Dietary supplements are a large and vibrant industry, with globally estimated sales that exceed $100 billion.Citation22 While some ingredients and formulations have shown evidence supporting their use in commercial supplements for hair regrowth,Citation23 many others have gained huge popularity mainly with the aid of extensively disseminated marketing messages on social media and on the internet in general.

Patients suffering from post-COVID-19 hair loss can be easily deceived into believing the promises of stimulating hair growth, even for products that have not been properly assessed in clinical trials. Given this context, is essential for physicians to educate and counsel their patients about the ingredients and formulations that have demonstrated benefit in high-quality randomized clinical trials, their correct use and indications.

Oral micronutrient supplementation is a viable approach to alleviate the severity of post-COVID-19 hair loss and support hair regrowth and should be administered to individuals in whom deficiencies are detected. The utility of oral micronutrient supplementation in improving the course of TE in the absence of detected deficiencies is unconfirmed and larger studies are needed to confirm their impact on the course of this condition. In this section, we are referring only to ingredients and formulations with published evidence supporting their validity and utility in this condition.

Multivitamins

Vitamin D

Research data has shown a correlation between TE and low serum vitamin D levelsCitation24Citation26 and therefore when evaluating patients with post-COVID-19 hair loss, testing for 25-hydroxyvitamin D levels (to assess for vitamin D deficiency) is indicated. Vitamin D receptors are expressed in hair follicle cells and possess the ability to modulate keratinocyte proliferation and hair growth cycling.Citation27

Meanwhile, in COVID-19 vitamin D is a supplement that gained a lot of popularity due to its ability to boost the immune system.Citation28

Vitamin E

Vitamin E is a well-known powerful antioxidant. Tocopherols and tocotrienols are the vitamin E derivatives commonly used in hair growth oral supplements. Beoy et al demonstrated their ability to increase hair growth, due to the ability to inhibit lipid peroxidation and reduce hair follicle oxidative stress.Citation29

Biotin

Biotin, also known as vitamin B7, is one of the most popular nutrients in many over-the-counter hair growth supplements, mainly due to its function in keratin production. However, despite its substantial advertising in this field, in patients suffering from hair loss, it is still controversial if oral biotin supplements do offer benefits, irrespective of serum biotin levels. In 2017 Patel el al conducted a systematic review of the use of biotin for hair loss conditionsCitation30 and concluded that only patients suffering from biotin deficiency do achieve clinical improvement after daily biotin supplementation, whereas no benefit is seen in individuals with normal baseline biotin levels.

Minerals

Zinc

Zinc is a trace element that is a potent promoter of hair follicle recoveryCitation31 and dysregulations in zinc metabolism were proved to play an essential role in many forms of hair loss, especially TE.Citation32 There is also evidence supporting the role of zinc supplementation for significant increase in hair thickness in females suffering from hair loss.Citation33

Based on the available data, as well as on the popularity that zinc has gained in the COVID era as an immune booster, it is recommended that zinc be supplied in patients with post-COVID-19 hair loss, if the baseline concentration of zinc is low.

Iron

Iron deficiency is the most frequently detected nutritional deficiency worldwide, affecting approximately 20–25% of the general population.Citation34,Citation35

It is well known that iron deficiency anaemia is linked to hair loss, and the affected patients can benefit from oral iron supplementation.Citation36Citation38 Whether iron supplementation is also beneficial for patients with TE in the absence of iron deficiency anaemia is debatable, but data suggest benefit.Citation38 In patients with post-COVID-19 hair loss, serum ferritin levels should be evaluated to assessed iron storage and oral iron supplementation could enhance hair re-growth whenever serum levels of ferritin are beneath the reference threshold.Citation39 The reference intervals for serum ferritin may vary across laboratories, but generally, the normal ranges are between 30 to 200 ng/mL for women and 30 to 300 ng/mL for men.Citation40

Marine-Derived Nutraceutical

Several studies have shown that oral administration of bioactive substances derived from the marine environment can have a significant impact on hair regrowth in various hair loss conditions.Citation41

Complex formulations containing hydrolyzed marine collagen type I and type III,Citation42 shark and mollusk powderCitation43 and other marine proteins can function as a highly efficient complementary treatment to decrease hair shedding and also enhance hair regrowth. The exact mechanism of action of these compounds is still not elucidated but the available evidence supports their use.

Topical Minoxidil

Minoxidil is an antihypertensive agent that uses its vasodilation properties to favour and increase blood circulation in the hair follicle. It also has the ability to activate prostaglandin synthase-1, an enzyme that promotes hair growth.Citation44 It is primarily indicated for the treatment of androgenetic alopecia, and some physicians also prescribe it for chronic TE, whereas the efficacy of topical minoxidil on acute TE has not been properly evaluated in high-quality clinical studies.

It is well known that minoxidil has the ability to stimulate the transition of hair follicles from the shedding (telogen) phase of the hair cycle to the growing (anagen) phase and further prolong this phase.Citation45 As previously stated, post-COVID-19 hair loss is characterized by a gradual remission and that is the point when initiation of treatment with topical minoxidil might be useful as a promoter for hair regrowth and maintenance.

In a limited amount of cases, patients may experience increased hair shedding during the first eight weeks of treatment with topical minoxidil. This simply indicates that minoxidil stimulates the release of telogen hair - thus boosting the end of the telogen phase, to subsequently stimulate anagen transition of hair follicles. It is important to inform the patients that this paradoxical phenomenon may occur, it is only transitory, and therapy should not be discontinued.Citation46

Administration instructions include application of topical 5% or 2% minoxidil in a foam or solution, once or twice daily, to the entire scalp.Citation45 Continuous therapy for 4 months may be necessary for beneficial effects to become visible.

For patients preferring plant-derived hair growth stimulators, rosemary oil can constitute a feasible option. In a randomized comparative study by Panahi et al, it was shown that twice daily application of rosemary oil can be as effective as 2% minoxidil, by improving microcirculation surrounding the hair follicle.Citation47

Mesotherapy

The term mesotherapy refers to “treatment of the mesoderm, the middle layer of skin”.Citation48 The technique consists of multiple intradermal microinjections of low doses of active substances, such as multivitamins, minerals, plant extracts, conventional medications and other bioactive substances directly into the dermal layer of the skin.

The direct inoculation of substances into the dermis (intradermotherapy) is an effective way to improve the nutrition of hair follicles located at this level, thus overcoming the epidermal barrier that is extensively lowering penetration of topically administered drugs. Furthermore, the trauma induced by multiple injections stimulates the activation of the dermal papillae, and local production of cytokines and growth factors at the affected sites, consequently supporting anagen hair regrowth.Citation49

Intradermal and intramuscular scalp injections of botulinum toxin (BTX) have also been investigated as adjunctive therapeutic strategies for the treatment of various non-scarring hair loss disorders, but the effectiveness and safety were not clearly demonstrated.Citation50 BTX is an injectable neurotoxin originally prescribed for medical disorders characterized by muscular hyperactivity,Citation51 and it has been afterwards widely employed in cosmetic dermatology, for the treatment of dynamic facial rhytides.Citation52 Due to its unique versatility, BTX is also being used in many other dermatologic conditions, in off label regimen.Citation53 In a recent pilot animal study, is has been used experimentally to investigate its effect on hair follicle cell regeneration under continuous stress conditions. The authors concluded that BTX may be a positive indicator for hair loss treatment but future studies are warranted.Citation54

The efficacy of mesotherapy on hair loss conditions still needs to be defined in high-quality, peer-reviewed clinical trials. Available data shows it can be used as a valuable adjuvant treatment modality for non-scarring alopecia in general, and the decision of initiating mesotherapy as a complementary therapy to promote hair regrowth after post-COVID-19 hair loss should be made on an individual case-by-case basis.

Platelet-Rich Plasma (PRP)

PRP is an innovative treatment in the field of regenerative medicine, with the highest level of evidence in hair re-growth, mainly alopecia areata and androgenetic alopecia. In the latter, a recent study showed that PRP therapy and treatment with autologous human follicle mesenchymal stem cells (HF-MSCs) have comparable results.Citation55

PRP contains high concentrations of autologous growth factors and other signaling molecules derived from blood platelets. These are injected into the target tissue, thus making it possible to deliver larger amounts of growth factors than usual blood circulation can supply in the affected areas.Citation56 At this level, PRP activates follicular stem cells and promotes regeneration of hair follicles, prolongs the anagen phase of the hair cycle and improves the function of the hair follicle.

To obtain clinical benefits, is necessary that the PRP preparation and composition is properly analysed, by its concentration of platelets, the filtration of white cells, and level of red blood cells contamination.Citation57

Only few peer reviewed studies investigated the efficacy of PRP application in the treatment of TE and the results are controversial. A recent case series, which included 9 patients suffering from accelerated hair loss associated with COVID-19, found PRP injections to provide a satisfactory solution after 4 sessions of treatment.Citation58

Considering the treatment is minimally invasive, with low costs, lacks adverse effects and has gained massive popularity for the treatment of hair loss, it could represent a useful complementary treatment to enhance hair regrowth in post-COVID-19 hair loss. The decision should be made on an individual case-by-case basis.

Conclusion

Telogen effluvium after COVID-19 is one of the postinfectious manifestations which is expected to be reported among recovering patients worldwide. The diffuse loss of “handfuls” of hair has a high-visual impact that is likely to attract dissemination of this condition on the internet and lay media along with misinformation regarding therapeutic options with “miraculous effectiveness” in treating post-COVID-19 hair loss. To enhance the process of hair regrowth, no single intervention is sufficient. Instead, a holistic approach integrating the general and local measures discussed in this article is the most appropriate strategy.

General measures include: patients’ education in understanding the disorder is reversible, integration of stress-coping strategies, optimal nutrition containing micronutrients such as vitamins (A, B complex, C, D, and E) and minerals (iron, zinc), and oral hair growth supplements for individuals in whom micronutrient deficiencies are detected. Local treatments with published evidence supporting their validity and utility in this condition include the topical vasodilator minoxidil, as well as techniques based on minimally invasive scalp injections in which active substances and high concentrations of autologous growth factors are directly delivered into the dermal layer of the scalp (mesotherapy and platelet-rich plasma therapy).

At this moment, scientific evidence does not point to an objective “best” option for patients suffering from post-COVID-19 hair loss. Considerations in simply waiting for spontaneous resolution of the disorder or choosing the appropriate complementary strategies that can help enhance hair regrowth after post-COVID-19 hair loss should be made on an individual case-by-case basis, after careful evaluation of all physiological and psychosocial factors, and integration of patient preferences.

Disclosure

The authors report no conflicts of interest in this work.

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