Palmar hyperhidrosis is a medical condition characterized by excessive sweating
specifically from the palms of the hands. This condition can significantly impact an
individual's quality of life, leading to social embarrassment, anxiety, and difficulties
in daily activities. It is classified as a type of primary hyperhidrosis, which means it
occurs without an identifiable underlying medical cause (Solish et al., 2022).
The prevalence of palmar hyperhidrosis is estimated to affect about 1% to 3% of the
population. Symptoms typically begin in childhood or adolescence, often becoming more
pronounced during periods of hormonal changes such as puberty. The condition may run in
families, suggesting a genetic predisposition (Wadhawa et al., 2019).
The underlying mechanism involves hyperactivity of the sympathetic nervous system,
particularly affecting the eccrine sweat glands located in the palms (Kisielnicka et al.,
2022).
Unlike normal sweating, which primarily serves thermoregulation (cooling the body),
palmar hyperhidrosis is triggered by emotional stimuli such as stress or anxiety rather
than heat. This inappropriate activation leads to excessive sweating that can occur even
at rest (Schote et al., 2022).
Diagnosis is primarily clinical and based on patient history and visible signs of
excessive sweating. Patients often report episodes that are bilateral and symmetrical,
with cold and wet palms that may appear pale or blushed. The diagnosis does not typically
require extensive testing unless secondary causes are suspected (Henning et al., 2021).
Treatment for palmar hyperhidrosis can be challenging due to varying degrees of severity
and individual responses to therapies (Chudry, 2022).
Common treatment options include topical treatments as aluminum chloride hexahydrate
which is considered one of the most effective topical treatments for palmar
hyperhidrosis. It works by blocking sweat pores and reducing gland activity. Application
involves using a concentrated solution on dry skin at night until symptoms improve,
followed by maintenance therapy (Rahim et al., 2022).
Another option of treatment is iontophoresis; this technique uses electrical currents to
temporarily block sweat gland function. It requires multiple sessions but can be
effective for many patients (Nastase et al., 2024).
Botulinum toxin type A can be injected into affected areas to inhibit neurotransmitter
release responsible for activating sweat glands. While effective, this treatment requires
repeated injections every few months due to its temporary effects (Martina et al., 2021).
Anticholinergic drugs have been used but are often limited by side effects such as dry
mouth and constipation at effective dosages (Wong et al., 2022).
The stellate ganglion block (SGB) is a nonsurgical treatment option for managing
hyperhidrosis, particularly in cases where other treatments have failed. The stellate
ganglion is a collection of nerves located in the neck that plays a crucial role in
regulating sweat gland activity. By blocking these nerves, it is possible to reduce
sweating in the affected areas (Deng et al., 2023).
The SGB works by injecting local anesthetics into the stellate ganglion, which interrupts
the sympathetic nerve signals responsible for activating sweat glands. This procedure can
be performed using ultrasound guidance to ensure accurate placement of the needle. The
typical approach involves administering an anesthetic such as lidocaine or bupivacaine
directly into the ganglion (Feigin et al., 2023).
Regarding surgical options; surgical sympathectomy is considered a last resort for severe
cases where other treatments have failed. This procedure involves cutting nerves that
trigger sweating but carries risks such as compensatory sweating in other body areas
(Kuijpers et al., 2022).
Finally, palmar hyperhidrosis is a common yet often underreported condition that can
severely affect individuals' lives due to its social implications and discomfort
associated with excessive sweating. Treatment options vary widely in effectiveness and
side effects, necessitating a tailored approach based on individual needs (Trettin et
al., 2022).