查尔斯·达尔文、迈克尔·乔丹和尤达有什么共同点?
What do Charles Darwin, Michael Jordan, and Yoda have in common? They, like many other historical and fictive individuals, are bald, in some cases by their own choice. For centuries, a shining dome has been a symbol of intelligence, but despite this, many balding people still wish their hair would return. Scientists have long pondered, "Why do some people lose their hair, and how can we bring it back?" The full-headed among us have about 100,000 to 150,000 hairs on our scalps, and scientists have discovered two things about this dense thicket. Firstly, the sprouting hair we see is mostly made up of keratin, the protein leftover from dead cells that are forced upwards as new cells grow beneath them. Secondly, the structures that drive hair growth are called hair follicles, a network of complex organs that forms before we're born, and grows hair in an everlasting cycle. This cycle has three main phases. The first is anagen, the growth phase, which up to 90% of your hair follicles are experiencing right now, causing them to push up hair at a rate of one centimeter per month. Anagen can last for two to seven years, depending on your genes. After this productive period, signals within the skin instruct some follicles to enter a new phase known as catagen, or the regressing stage, causing hair follicles to shrink to a fraction of their original length. Catagen lasts for about two to three weeks and cuts blood supply to the follicle, creating a club hair, meaning it's ready to be shed. Finally, hairs enter telogen, the resting phase, which lasts for ten to twelve weeks, and affects about 5-15% of your scalp follicles. During telogen, up to 200 club hairs can be shed in a day, which is quite normal. Then, the growth cycle begins anew. But not all heads are hairy, and, in fact, some of them grow increasingly patchy over time in response to bodily changes. 95% of baldness in men can be attributed to male pattern baldness. Baldness is inherited, and in people with this condition, follicles become incredibly sensitive to the effects of dihydrotestosterone, a hormonal product made from testosterone. DHT causes shrinkage in these overly sensitive follicles, making hair shorter and wispier. But loss isn't sudden. It happens gradually, along a metric known as the Norwood Scale, which describes the severity of hair loss. First, hair recedes along the temples, then hair on the crown begins to thin in a circular pattern. At the highest rating on the scale, these balding areas meet and expand dramatically, eventually leaving only a ring of sparse hair around the temples and the back of the head. Genetics isn't all that drives hair loss. Long periods of stress can release signals that shock follicles and force them into the resting phase prematurely. Some women experience this after childbirth. Follicles might also lose the ability to go into anagen, the growth phase. People going through chemotherapy treatment temporarily experience this. But while balding may look permanent, scientific investigation has revealed the opposite. Below the skin's surface, the roots that give rise to our hair actually remain alive. Using this knowledge, scientists have developed drugs that shorten the resting phase, and force follicles into anagen. Other drugs combat male pattern baldness by blocking the conversion of testosterone to DHT so that it doesn't affect those sensitive follicles. Stem cells also play a role in regulating the growth cycle, and so scientists are investigating whether they can manipulate the activity of these cells to encourage follicles to start producing hair again. And in the meantime, while scientists hone their hair-reviving methods, anyone going bald, or considering baldness, can remember that they're in great company.
他们就像许许多多历史人物和 虚构人物一样——都秃顶, 有的时候是他们自己选择要秃顶的。 从古至今,闪亮的圆头顶都是智慧的象征, 但是尽管如此, 很多秃顶的人还是希望他们的头发还能长回来。 科学家们思考良久, “为什么有些人脱发, 我们又能怎样再让头发长出来呢?” 长满头发的人的头皮上大概有10万到15万根头发, 对于这片厚厚的灌木丛, 科学家有了两个新发现。 首先,我们看到的长出的头发中 有很大一部分是由角质组成的。 角质就是因为新细胞在它们之下生长而被向上推的 死细胞中剩余的蛋白质, 其次, 使头发生长的结构叫发囊。 发囊是复杂器官组成的一个网络 它在我们出生之前就形成了, 并且使头发不断生长。 这个周期有3个阶段, 第一个阶段是毛发生长初期,即生长阶段。 多达90%的发囊正处于毛发生长初期, 使他们以每月1厘米的速度把头发向上推。 根据基因的不同, 毛发生长初期可以持续2到7年。 在这段高产时期之后, 皮肤里的信号命令一些发囊进入一个新的阶段。 这个阶段叫做毛发生长中期, 或者倒退期。 倒退期使发囊缩小至他们原来长度的一小段, 这个阶段持续2到3周, 并且切断毛囊的供血,使其形成一个杵状毛, 这意味着头发已经准备好要脱落了。 最后,头发进入毛发生长终期,即休止期, 休止期持续10至12周, 并且影响到你5%到15%的头皮毛囊。 在毛发生长终期, 多达200根杵状毛会在一天之内脱落, 这是十分正常的。 然后,生长周期又重新开始, 但是, 不是所有的头都是长满头发的, 实际上, 随着时间的推移, 有些人逐渐长出了斑状 这是对身体变化做出的反应。 男性中95%的脱发是由于男性型秃。 秃顶是遗传的, 有男性型秃的人, 他们的发囊会变得对 二氢睾酮 异常敏感, 二氢睾酮 是从睾酮中产生的激素。 二氢睾酮(DHT)导致这些过于敏感的毛囊缩小, 使头发变得又短又细。 但是脱发不是忽然发生的 它根据一个度量标准逐渐发生, 这个度量叫诺伍德分型, 它描述脱发的严重程度。 首先,头发沿着太阳穴脱落, 然后, 头顶上的头发一圈一圈地变稀疏。 在这个分型的最高级, 这些秃顶的部分相互连接然后大幅扩张, 最后只剩下太阳穴周边一圈稀少的头发, 和后脑勺的头发。 基因不是导致脱发的唯一原因。 长期的压力会释放刺激毛囊的信号, 并且使他们提早进入休止期。 一些产后妇女会经历这个阶段。 发囊也有可能失去能力, 无法进入毛发生长初期,即生长期。 接受化疗的人会暂时经历这个阶段。 但是,脱发也许看起来是永久性的, 科学研究揭示了与其相悖的一面。 在表皮下, 使我们头发生长的发根实际上保持着活性。 运用这个知识, 科学家们发明了可以缩短休止期的药物, 从而迫使发囊进入毛发生长初期。 其他治疗男性型秃顶的药物, 通过限制睾酮转变成二氢睾酮的方法来实现 这样,敏感的发囊就不会受到影响。 干细胞也起到调整生长周期的作用, 所以,科学家们正在研究他们 是否可以控制这些细胞的活动, 从而促使这些毛囊从新开始长出头发。 同时, 当科学家在研究头发再生的方法时, 秃顶的者思考秃顶的人, 可以记得他们有那些聪明秃顶的人相伴